JP Morgan 14th Annual Energy Paper. https://am.jpmorgan.com/conten…ket/electravision-amv.pdf
Previous years here: https://privatebank.jpmorgan.c…-and-featured/eotm#energy
USEFUL PAPERS THREAD
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"Quantum field stabilization of the di-neutron enabling low energy deuterium fusion" 2014
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NGK SPARK PLUG CO LTD
JP2023157501 - NUCLIDE TRANSMUTATION DEVICE AND NUCLIDE TRANSMUTATION METHOD
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I uploaded 85 papers. The latest papers are shown here, but there are so many this list is unhelpful:
I have appended another list below, which includes most of the new papers.
I uploaded 4 papers by W. B. Clarke. These cast doubt on results from Arata, and Case.
900. Clarke, W.B., Search for 3He and 4He in Arata-Style Palladium Cathodes I: A Negative Result. Fusion Science and Technology, 2001. 40 ACC
http://lenr-canr.org/acrobat/ClarkeWBsearchforh.pdf
901. Clarke, W.B., Search for 3He and 4He in Arata-Style Palladium Cathodes II: Evidence for Tritium Production. Fusion Science and Technology, 2001 ACC
http://lenr-canr.org/acrobat/ClarkeWBsearchforha.pdf
903. Clarke, W.B., Production of 4He in D2-Loaded Palladium-Carbon Catalyst I. Fusion Science and Technology, 2003. 43(1): p. 122-127 ACC
http://lenr-canr.org/acrobat/ClarkeWBriproduction.pdf
904. Clarke, W.B., S.J. Bos, and B.M. Oliver, Production of 4He in D2-Loaded Palladium-Carbon Catalyst II. Fusion Science and Technology, 2003. 43(2): p. 250-255 ACC
http://lenr-canr.org/acrobat/ClarkeWBriproductiona.pdf
Here are most of the papers I added today:
New to the database and newly uploaded
New: Ambadkar, A., electrolysis of d2o with a palladium cathode compared with electrolysis of h2o with a platinum electrode: procedure and experimental details
New: Bockris, J., do nuclear reactions take place under chemical simulation?
New: Bockris, J. O'M., speculative interpretation of overunity experiments involving water electrolysis
New: Bush, B. F., data for 4he measurement
New: Bush, B. F., comments on "search for 3he and 4he in arata-style palladium cathodes i: a negative result" and "search for 3he and 4he in arata-style palladium cathodes ii: evidence for tritium production"
New: Cirillo, D., experimental evidence of a neutron flux generation in a plasma discharge electrolytic cell
New: De Ninno, A., consequences of lattice expansive strain gradients on hydrogen loading in palladium
New: Drebushchak, V. A., excess heat release during deuterium sorption-desorption by finely powdered palladium deuteride
New: Dubinko, V. I., on the role of disorder in catalysis driven by discrete breathers
New: Fralick, G. C., transmutations observed from pressure cycling palladium silver metals with deuterium gas
New: Holmlid, L., heat generation above break-even from laser-induced fusion in ultra-dense deuterium
New: Karabut, A., possible nuclear reactions mechanisms at glow discharge in deuterium
New: McKubre, M. C. H., conditions for the observation of excess power in the d/pd system
New: McKubre, M. C. H., electrochemistry and calorimetry in a packed-bed flow-through electrochemical cell
New: Mizuno, T., excess heat evolution and analysis of elements for solid state electrolyte in deuterium atmosphere during applied electric field
New: Stepanov. I. N., experimental measurement of excess thermal energy released from a cell loaded with a mixture of nickel powder and lithium aluminum hydride
New: Ohmori, T., enrichment of 41k isotope in potassium formed on and in a rhenium electrode during plasma electrolysis in k2co3/h2o and k2co3/d2o solutions
New: Srinivasan, M., excess heat and tritium measurements in ni-h2o electrolytic cells
New: Vysotskii, V. I., the formation of correlated states and optimization of the tunnel effect for low-energy particles under nonmonochromatic and pulsed action on a potential barrier
New: Yamada, H., carbon production on palladium point electrode with neutron burst under dc glow discharge in pressurized deuterium gas
Previously listed in database but not uploaded
On file: Adachi, G., (3)He and (4)He from D2 absorbed in LaNi5
On file: Alguero, M., An interpretation of some postelectrolysis nuclear effects in deuterated titanium
On file: Asami, N., Material characteristics and behavior of highly deuterated loaded palladium by electrolysis
On file: Battaglia, A., Neutron emission in Ni-H systems
On file: Belzner, A., Two fast mixed-conductor systems: deuterium and hydrogen in palladium - thermal measurements and experimental considerations
On file: Bertalot, L., Study of deuterium charging in palladium by the electrolysis of heavy water: heat excess production
On file: Bhadkamkar, A., Electron Charge Cluster Sparking in Aqueous Solutions
On file: Bockris, J., Nuclear Transmutation: The reality of cold fusion (Book Review)
On file: Bush, R. T., Electrolytically Simulated Cold Nuclear Synthesis of Strontium from Rubidium
On file: Celani, F., Further measurements on electrolytic cold fusion with D2O and palladium at Gran Sasso Laboratory
On file: Clarke, W. B., Search for 3He and 4He in Arata-Style Palladium Cathodes I: A Negative Result
On file: Clarke, W. B., Search for 3He and 4He in Arata-Style Palladium Cathodes II: Evidence for Tritium Production
On file: Claytor, T. N., Tritium production from a low voltage deuterium discharge of palladium and other metals (JNE)
On file: Cuevas, F., A search for nuclear reactions in deuterated fresh iodide-titanium films
On file: De Ninno, A., Evidence of emission of neutrons from a titanium-deuterium system
On file: De Ninno, A., Deformations induced by high loading ratios in palladium-deuterium compounds
On file: De Ninno, A., Study of deuterium charging in palladium by electrolysis of heavy water
On file: Di Giulio, M., Analysis of Nuclear Transmutations Observed in D- and H-Loaded Films
On file: Dong, S. Y., Precursors to 'cold fusion' phenomenon and the detection of energetic charged particles in deuterium/solid systems
On file: Dufour, J., Cold fusion by sparking in hydrogen isotopes
On file: Dufour, J., Interaction of palladium/hydrogen and palladium/deuterium to measure the excess energy per atom for each isotope
On file: Felici, R., In situ measurement of the deuterium (hydrogen) charging of a palladium electrode during electrolysis by energy dispersive x-ray diffraction
On file: Fisher, J. C., Liquid-drop model for extremely neutron rich nuclei
On file: Green, T. A., Calorimetric studies of highly loaded deuterides and hydrides of palladium
On file: Hodko, D., Possible excess tritium production on Pd codeposited with deuterium
On file: Hora, H., Plasma and surface tension model for explaining the surface effect of tritium generation at cold fusion
On file: Hora, H., Screening in cold fusion derived from D-D reactions
On file: Iwamura, Y., Detection of anomalous elements, x-ray, and excess heat in a D2-Pd system and its interpretation by the electron-induced nuclear reaction model
On file: Jin, S. X., Possible palladium-related nuclear reactions
On file: Jones, S. E., Observation of cold nuclear fusion in condensed matter
On file: Kainthla, R. C., Eight chemical explanations of the Fleischmann-Pons effect
On file: Kim, Y. E., The role of the low-energy proton-deuteron fusion cross section in physical processes
On file: Kirkinskii, V. A., Excess heat release during deuterium sorption-desorption by finely powdered palladium deuteride
On file: Lacouture, Shelby, A solid-state, open-system, differential calorimeter
On file: Li, X. Z., Excess Heat Measurement in Gas-Loading D/Pd System
On file: Lipson, A. G., Evidence for low-intensity D-D reaction as a result of exothermic deuterium desorption from Au/Pd/PdO:D heterostructure
On file: Melendez, L., Titanium deuteration with neutron emission through electrical discharges
On file: Mengoli, G., Tritium and neutron emission in D2O electrolysis at Pd and Ti cathodes
On file: Menlove, H. O., The measurement of neutron emission from Ti plus D2 gas
On file: Mizuno, T., Neutron and Heat Generation Induced by Electric Discharge
On file: Mosier-Boss, P. A., Condensed matter nuclear reaction products observed in Pd/D co-deposition experiments
On file: Notoya, R., Cold fusion by electrolysis in a light water-potassium carbonate solution with a nickel electrode
On file: Notoya, R., Low Temperature Nuclear Change of Alkali Metallic Ions Caused by Electrolysis
On file: Notoya, R., Nuclear Reaction Caused by Electrolysis in Light and Heavy Water Solutions
On file: Nowicka, E., H2 dissociative adsorption on palladium hydride and titanium hydride surfaces: Evidence for weakly bound state of hydrogen adatoms
On file: Numata, H., Low-temperature elastic anomalies and heat generation of deuterated palladium
On file: Numata, H., In Situ Potentiometric, Resistance, and Dilatometric Measurements of Palladium Electrodes During Repeated Electrochemical Hydrogen Absorption
On file: Passell, T. O., Overview and Status of the EPRI Program on Deuterated Metals
On file: Rabinowitz, M., An analysis of cold and lukewarm fusion
On file: Reifenschweiler, O., About the possibility of decreased radioactivity of heavy nuclei
On file: Rice, R. A., The Effect of Velocity Distribution on Cold Deuterium-Deuterium Fusion
On file: Scott, C. D., Measurement of excess heat and apparent coincident increases in the neutron and gamma-ray count rates during the electrolysis of heavy water
On file: Senjuh, T., Experimental study of electrochemical deuterium loading of Pd cathodes in the LiOD/D2O system
On file: Silver, D. S., Surface topography of a palladium cathode after electrolysis in heavy water
On file: Skelton, E. F., In situ Monitoring of Crystallographic Changes in Pd Induced by Diffusion of D
On file: Stoppini, G., Nuclear processes in hydrogen-loaded metals
On file: Storms, E., Introduction to the main experimental findings of the LENR field
On file: Stuhr, U., An investigation of hydrogen diffusion in nanocrystalline Pd by neutron spectroscopy
On file: Tsuchiya, K., Interaction between two neighboring deuterium atoms in palladium
On file: Vigier, J. P., On cathodically polarized Pd/D systems
On file: Violante, V., Lattice ion trap: classical and quantum description of a possible collision mechanism for deuterons in metal lattices
On file: Violante, V., Three-dimensional analysis of the lattice confinement effect on ion dynamics in condensed matter and lattice effect on the d-d nuclear reaction channel
On file: Will, F. G., Hydrogen + oxygen recombination and related heat generation in undivided electrolysis cells
On file: Yamada, H., Producing a radioactive source in a deuterated palladium electrode under direct-current glow discharge
On file: Yamaguchi, M., Thermodynamic theory of magnetic field effects on chemical equilibra and applications to metal-hydrogen systems
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Last year, Ed Storms and Tom Grimshaw mailed me several boxes of papers from Ed's files. I scanned or downloaded all of the papers and sent copies to Ed.
This year I have uploaded 125 files to LENR-CANR.org. The other day I uploaded 85, as I mentioned. Most of these are from the Storms collection. There are 1,541 other files I have not uploaded. That number does not include duplicate copies, poor quality copies, and papers from authors and publishers who asked me not to upload them. The list of the remaining 1,541 candidates is appended below. If readers here spot a paper that you think I should upload, let me know.
There are several papers published before 1989 not directly related to cold fusion. Ed thinks these are important for understanding cold fusion. They include, for example:
Oppenheimer, J.R. and M. Phillips, Note on the Transmutation Function for Deuterons. Phys. Rev., 1935. 48: p. 500.
I have thought about gathering these into a book, rather than uploading them individually. The problem is that many of them are over my head and I cannot judge whether they should be included or not. The other problem is, this would be a lot of work! People I have discussed it with have not expressed interest in the idea. If you think this is a good idea, and you can help decide which papers should be included, send me an e-mail.Here is the list . . . if it will fit:
Storms collection files not uploaded as of March 2024
1. Abbenseth, R., Thermal Expansion and Lattice Anharmonicity of Pd-H and Pd-D Alloys
2. Abell, G. C., Helium release from aged palladium tritide
3. Abell, G. C., NMR Evidence for Solid-Fluid Transition Near 250 K of 3He Bubbles in Palladium Tritide
4. Aben, P. C., Surface Structure and Electrochemical Potential of Palladium while Absorbing Hydrogen in Aqueous Solution
5. Aberdam, D., Limits on neutron emission following deuterium absorption into palladium and titanium
6. Abriola, D., Examination of nuclear measurement conditions in cold fusion experiments
7. AbuTaha, A. F., Cold fusion - the heat mechanism
8. Adachi, G., (3)He and (4)He from D2 absorbed in LaNi5
9. Adamenko, S. V., evolution of annular self-controlled electron-nucleus collapse in condensed targets
10. Adkisson, W. M., the cause of and happenings during cold fusion events
11. Adler, P. N., Deuterium surface segregation in titanium alloys
12. Ahern, B. S., Method of Maximizing Anharmonic Oscillations in Deuterated Alloys
13. Aiello, S., Nuclear fusion experiment in palladium charged by deuterium gas
14. Akiba, H., nanometer-size effect on hydrogen sites in palladium lattice
15. Al Katrib, A. K., can water be the origin of excess energy?
16. Albagli, D., Measurement and analysis of neutron and gamma-ray emission rates, other fusion products, and power in electrochemical cells having Pd cathodes
17. Alber, D., Search for neutrons from cold nuclear fusion
18. Alberg, M. A., Upper limits to fusion rates of isotopic hydrogen molecules in palladium
19. Albers, P., Investigations of palladium catalysts on different carbon supports
20. Aleksan, R., Limits on electrochemically induced fusion of deuterium by neutron flux measurements
21. Alekseeva, S., grain boundary mediated hydriding phase transformations in individual polycrystallinemetal nanoparticles
22. Alessandrello, A., Search for cold fusion induced by electrolysis in palladium
23. Alexandrov, D., low-energy nuclear fusion reactions in solids: experiments
24. Allard, K., Application of the Electron-Donation Model for Hydrogen Absorption to Palladium-Rich Alloys. Hydrogen-Gold-Palladium
25. Allard, L. F., electron holography reveals the internal structure of palladium nanoparticles
26. Alvarez, L.W., catalysis of nuclear reactions by p mesons
27. Alvin, M. C., effect of deuterium on the strength of hydrogen bonds
28. Amato, I., Cold Fusion Keeps Its Head Just Above Water
29. Amato, I., Cold Fusion:Wanted Dead And Alive
30. Amato, I., hard pressed
31. Amato, I., If Not Cold Fusion, Try Fracto-Fusion?
32. An, H. K., Analysis of deformed palladium cathodes resulting from heavy water electrolysis
33. An, X-W., Calorimetric investigation of electrochemically induced nuclear fusion of deuterium
34. Anderson, G. C., Clandestine NSF Panel Warms to Cold Fusion
35. Anderson, I. S., The Structure of the g Phase of Palladium Deuteride
36. Anderson, J., Letters and Response about Cold Fusion at Texas A&M
37. Anderson, M., surface enhanced infrared absorption by coupling phonon and plasmon resonance
38. Anderson, P. W., absence of diffusion in certain random lattices
39. Anghaie, S., On fusion/fission chain reactions in the Fleischmann-Pons 'cold fusion' experiment
40. Antonov, V. E., neutron spectroscopy of nickel deuteride
41. Antonov, V. E., Phasometric T-P Diagram of the Rh-H System up to 400 C and Pressure of 67 kbar
42. Antonov, V. E., The Pd-Pt-H System: Phase Transformations at High Pressure and Superconductivity
43. Antonov, V. E., The Solubility of Hydrogen in the Platinum Metals under High Pressure
44. Appleby, A. J., Evidence for Excess Heat Generation Rates During Electrolysis of D2O in LiOD Using a Palladium Cathode-A Microcalorimetric Study
45. Araki, H., phase diagram of hydrogen palladium
46. Arata, M.J.A., Zhang, Y-C., biography
47. Arata, Y., A new energy caused by "Spillover-deuterium"
48. Arata, Y., Achievement of an intense cold fusion reaction
49. Arata, Y., Achievement of intense 'cold' fusion reaction
50. Arata, Y., achievement of solid-state plasma fusion ("cold fusion")
51. Arata, Y., 'Cold' fusion caused by a weak 'on-off effect'
52. Arata, Y., Cold fusion reactions driven by 'Latticequake'
53. Arata, Y., Critical condition to induce 'excess energy' within [DS-H2O] cell
54. Arata, Y., Definitive difference between [DS-D2O] and [Bulk-D2O] cells in 'deuterium-reaction'
55. Arata, Y., deuterium nuclear reaction process within solid
56. Arata, Y., Deuterium nuclear reaction process within solid
57. Arata, Y., Helium (4He, 3He) within deuterated Pd-black
58. Arata, Y., Presence of helium (4/2He, 3/2He) confirmed in deuterated Pd-black by the "vi-effect" in a "closed QMS" environment
59. Arata, Y., Reproducible "Cold" Fusion Reaction Using A Complex Cathode
60. Arata, Y., Solid-state plasma fusion ('cold fusion')
61. Arata, Y., the basics of nuclear fusion reactor using solid pycnodeuterium as nuclear fuel
62. Arata, Y., The Formation Of "Solid Deuterium" Solidified Inside Crystal Lattice And Intense Solid-State Nuclear Fusion ("Cold Fusion'")
63. Arblaster, J. W., crystallographic properties of palladium
64. Archer, D. G., thermodynamic propoerties of import to environmental processes and remediation. ii. previous thermodynamic property values for nickel and some of its compounds
65. Arista, N. R., Screening effects in nuclear fusion of hydrogen isotopes in dense media
66. Armacanqui, M. E., Anomalies Accompanying the Cathodic Charging of Some bcc Metals
67. Armstrong, R. D., A long-term calorimetric study of the electrolysis of D2O using palladium cube cathodes
68. Armstrong, R. D., Editorial:The Cold Fusion Debate
69. Armstrong, R. D., Some aspects of thermal energy generation during the electrolysis of D2O using a palladium cathode
70. Arnold, W. R., Cross Sections for the Reactions D-T, D-He ,T-He, He-He below 120 kev
71. Arnoult, W., The Solubility of Carbon in Rhodium, Ruthenium, Iridium and Rhenium
72. Arons, R. R., internal friction ofpalladium contain ing hydrogen
73. Arroyave, R., thermodynamic modeling of the zr-o system
74. Arzhannikov, A. V., First observation of neutron emission from chemical reactions
75. Asami, N., Research and development for new hydrogen energy
76. Ashcroft, N. W., metallic hydrogen: a high-temperature superconductor?
77. Ashcroft, N.W., metallic superfluids
78. Aspden, H., Refrigeration and electrical power generation
79. Assenbaum, H. J., Effects of Electron Screening on Low-Energy Fusion Cross Sections
80. Astakhov, I. I., An attempt to detect neutron and gamma radiations in heavy water electrolysis with a palladium cathode
81. Astakhov, I. I., Diffusion of hydrogen isotopes in palladium hydride and deuteride in the presence of lithium
82. Azbel, M. Ya., Possibility of cold fusion
83. Azumi, K., Acoustic emission from a palladium electrode during hydrogen charging and its release in a LiOH electrolyte
84. Babaev, E., a superconductor to superfluid phase transition in liquid metallic hydrogen
85. Badding, J. V., high-pressure chemistry of hydrogen in metals: in situ study of iron hydride
86. Badiei, S., experimental studies of fast fragments of h rydberg matter
87. Bae, Y. K., Experimental confirmation of cluster-impact fusion
88. Baierlein, R., the elusive chemical potential
89. Bailey, D. C., Gammas from Cold Nuclear Fusion
90. Baird, J. K., Isotope effect in hydrogen atom diffusion in metals
91. Balbaa, I. S., The Effect of Lattice Distortions on the X-Ray Measurement of Lattice Parameters for PdHx: I. Empirical Relationships
92. Baldi, F., h2 negative corona discharge on pd/h system at low pressures
93. Baldo, M., Relaxation toward equilibrium in plasmon-enhanced fusion
94. Balej, J., Energy balance of D2O electrolysis with a palladium cathode, Part I. Theoretical relations
95. Balian, R., Cold fusion in a dense electron gas
96. Balin, D. V., Experimental Investigation of the Muon Catalyzed d-d Fusion
97. Balke, B., Limits on neutron emission from 'cold fusion' in metal hydrides
98. Bambakidis, G., electrical resistivity versus deuterium concentration in palladium
99. Baranova, R. V., Crystal Structure of Pd Hydride with Primitive Cubic Lattice
100. Baranowski, B., 45 years of nickel hydrode - history and perspectives
101. Baranowski, B., A High-Pressure Investigation of the Rhodium/Palladium/Hydrogen System
102. Baranowski, B., a simplified quantitative approach to the isothermal hysteresis in metallic hydrides with coherent interphases
103. Baranowski, B., a study of the palladium-platinum-hydrogen system over a wide range of hydrogen pressures
104. Baranowski, B., Activation Volume for Hydrogen Diffusion in Palladium Hydride
105. Baranowski, B., electrochemical formation of nickel hydride in alkaline solutions
106. Baranowski, B., High Pressure Research on Palladium-Hydrogen Systems
107. Baranowski, B., kinetic and thermodynamic hysteresis in transition metal-hydrogen systems
108. Baranowski, B., remarks on superconductivity in pdh
109. Baranowski, B., The Electrical Resistance of Palladium and Palladium-Gold Alloy (50 wt% Au and Pd) in Gaseous Hydrogen up to 24000 at at 25 deg C
110. Baranowski, B., the volume increase of fcc metals and alloys due to interstitial hydrogen over a wide range of hydrogen contents
111. Barker, W. A., Electrostatic voltage excitation process and apparatus
112. Barker, W. A., Method for enhancing alpha decay in radioactive materials
113. Barmina, E.V., laser-induced synthesis and decay of tritium under exposure of solid targets in heavy water
114. Barnes, W. L., surface plasmon polaritons and their role in the enhanced transmission of light through periodic arrays of subwavelength holes in a metal film
115. Bartlett, R. N., the effect of surface species on the rate of h sorption into nanostructured pd
116. Barton, J. C., Absorption of Hydrogen by Palladized Palladium Electrodes Following Immersion in Oxidizing Solutions
117. Barton, J. C., Changes of Electrode Potential and Electrical Resistance as a Function of the Hydrogen Content of some Pd+Ni and Pd+Rh alloys
118. Barton, J. C., Hysteresis of the Relationships Between Electrical Resistance and Hydrogen Content of Palladium
119. Barton, J. C., Interface Impedance and the Apparent Electrical Resistance of Palladium Hydrides in Aqueous Solutions
120. Barut, A. O., Prediction of new tightly-bound states of H2+ (D2+) and 'cold fusion' experiments
121. Barwick, S. W., Search for 0.8 MeV (3)He nuclei emitted from Pd and Ti exposed to high pressure D2
122. Bass, R. W., an apparently true conjecture in number theory
123. Bass, R. W., curriclum vitae
124. Bass, R. W., electro-nuclear transmutation: low-energy nuclear reactions in an electrolytic cell
125. Bass, R. W., Is the Coulomb Fusion "Barrier" a Resonantly Transparent Mirror? Refutation of the Conventional Cold Fusion 'QM-Impossibility' "Proof"
126. Bass, R. W., is the coulomb fusion-"barrier" actually a resonantly-transparent mirror?
127. Bass, R. W., magnetic enhancement of the fleischmann-pons deuterium fusion and bush-eagleton hydrogen-alkali/lant process by spin polarization
128. Bass, R. W., qrt: quantum resonance triggering principle
129. Bass, R. W., theoretical and experimental results regarding (lenr/cf)
130. Basteev, A. V., Activation of solid-phase deflagration of hydrogen-containing energy-storing substances
131. Batalla, E., In-situ X-ray diffraction of palladium cathodes in electrolytic cells
132. Baumer, M., metal deposits on well-ordered oxide films
133. Baurichter, A., Search for cold fusion in palladium
134. Baz, A. I., systematics of the lightest nuclei
135. Bearden, T. E., the final secret of free energy
136. Becker, E. W., Triple collision reaction of deuterons as a possible explanation of cold nuclear fusion
137. Beeri, O., transformation mismatch plasticity in pd induced by cyclic hydrogen charging
138. Beghella-Bartoli, S., confirmation of santilli s detection of antimatter galaxies via a telescope with concave lenses
139. Begley, S., A Sun in a Test Tube?
140. Behrisch, R., Search for fusion reactions between deuterium atoms implanted into titanium
141. Bellanger, G., Determination of tritium adsorption and diffusion parameters in a palladium-silver alloy by electrochemical impedance analysis
142. Bellanger, G., Embrittlement of Palladium and Palladium-Silver Alloy Cathode Membranes by Tritium
143. Bellini, M., Nuclear Fusion in Excited Hydrogen Molecules
144. Beltyukov, I. L., Laser-induced cold nuclear fusion in Ti-H2-D2-T2 compositions
145. Belzner, A., Recent results on mixed conductors containing hydrogen or deuterium
146. Benck, J. D., producing high concentrations of hydrogen in palladium via electrochemical insertion from aqueous and solid electrolytes
147. Bendkowsky, V., novel binding mechanism for ultra-long range molecules
148. Benedek, G., Cold nuclear fusion: viewpoints of solid-state physics
149. Benesh, C. J., Fusion rates of squeezed and screened hydrogenic nuclei
150. Bennington, S. M., A search for the emission of x-rays from electrolytically charged palladium-deuterium
151. Bennington, S. M., In-situ measurements of deuterium uptake into a palladium electrode using time-of-flight neutron diffractometry
152. Bergsma, J., thermal motion in palladium hydride studied by means of elastic and inelastic scattering of neutrons
153. Berkheimer, G. D., Hydrogen Pumping with Palladium Membranes
154. Berlinguette, C. P., Revisiting the cold case of cold fusion
155. Berlouis, L. E. A., The decomposition of electrochemically loaded palladium hydride: a thermal analysis study
156. Bertin, A., Experimental evidence of cold nuclear fusion in a measurement under the Gran Sasso Massif
157. Bertin, A., First experimental results at the Gran Sasso Laboratory on cold nuclear fusion in titanium electrodes
158. Besenbacher, F., Interaction of hydrogen isotopes with metals: deuterium trapped at lattice defects in palladium
159. Besenbacher, F., Search for cold fusion in plasma-charged Pd-D and Ti-D systems
160. Betteridge, W., The separation of hydrogen from gas mixtures:a process of absorption and desorption by palladium
161. Beuhler, R. J., Cluster-Impact Fusion
162. Beuhler, R. J., Deuteron-Deuteron Fusion by Impact of Heavy-Water Clusters on Deuterated Surfaces
163. Biberian, J. P., Biological transmutations
164. Bigeleisen, J., Vapor-Liquid Equilibria of Dilute Solutions of HT in e-H2 and DT in e-D2 from the Triple Points to the Critical Temperatures of the Solutions
165. Bird, K., cold fusion test worked at lanl
166. Birnbaum, H. K., Hydrogen in aluminum
167. Bishop, J. E., A Bottle Rekindles Scientific Debate About the Possibility of Cold Fusion
168. Bishop, J. E., Cold Comfort on Cold Fusion Front
169. Bishop, J. E., Cold Fusion Generating Lots of Heat, Little Light
170. Bishop, J. E., 'Cold Fusion' Gets Cold Shoulder From Many a Year After Findings
171. Bishop, J. E., 'Cold Fusion' Researcher Asserts Dozens of Tests Can't be 'Ignored"
172. Bishop, J. E., Cold Fusion Verdict May Be Delivered Soon
173. Bishop, J. E., Heat Source in Fusion Find May Be Mystery Reaction and Brigham Young Physicists Reveal Details of Second H-Fusion Discovery and Will New Energy Sources Soon Power U.S.?
174. Bishop, J. E., Japan's Cold Fusion Effort Produces Startling Claims of Bursts of Neutrons
175. Bishop, J. E., Taming H-Bombs? : Utah Scientists Claim Breakthrough in Quest for Fusion Energy
176. Bittner, M., Method for investigation of fusion reactions in condensed matter
177. Bjerklie, D., Fusion Illusion?
178. Blagus, S., Search for neutron production during heavy water electrolysis on palladium electrodes
179. Blanchard, A. A, the metal carbonyls
180. Blanchard, R., fizzion a new process for low energy nuclear transformation and energy production
181. Blaschko, O., Model for the Structural Changes at Low Temperatures in PdDx
182. Blencoe, J. G., Tests for 'cold fusion' in the Pd-D2 and Ti-D2 systems at 40-380 MPa and -196-27 degC
183. Bochler, S., 3d Photoemission from Mixed Valent YbH2.6
184. Bockris, J. O'M., about the alleged presence of tritium in some palladium electrodes and journalist gary taubes article in science
185. Bockris, J. O'M., hydrogen economy in the future0
186. Bockris, J. O'M., lattice assisted nuclear transformation (lant)
187. Bockris, J. O'M., some happenings at texas a&m university when unexpected new results in research are obtained
188. Bockris, J. O'M., the answer to the conundrum at texas a & m: accusations of fraud in an article published by "science
189. Bockris, J. O'M., were the seeds of the decay of the west sown in 1650?
190. Bockris, J., First experimental establishment of high internal pressure of molecular hydrogen developed in palladium during water electrolysis
191. Bockris, J., hydrogen
192. Bockris, J., hydrogen embrittlement and hydrogen traps
193. Bockris, J., methanol as a main fuel to replace gasoline without global warming
194. Bockris, J., the electro-permeation of hydrogen into metals
195. Bockris, J., The equivalent pressure of molecular hydrogen in cavities within metals in terms of the overpotential developed during the evolution of hydrogen
196. Bockris, J., The Hydrogen Evolution Kinetics and Hydrogen Entry into a-Iron
197. Bockris, J., The mechansim of the evolution of hydrogen on palladium and associated internal damage phenomena
198. Boes, N., Electrochemical methods for studying diffusion, permeation and solubility of hydrogen in metals
199. Bonazzola, G. C., A large-area neutron detector based on double scattering
200. Bond, R. A., The Use of Monte Carlo Simulations in the Study of a Real Lattice Gas and its Application to the a' Pd-D System
201. Bonev, S. A., a quantum fluid of metallic hydrogen suggested by first-principles calculations
202. Boniszewski, T., The influence of hydrogen on the plastic deformation ductility, and fracture of nickel in tension
203. Boriskina, S. V., plasmonics with a twist: taming optical tornadoes on the nanoscale
204. Bosch, H. S., electrochemical cold fusion trials at ipp garching
205. Bosch, H. S., Electrochemical cold fusion trials at IPP Garching
206. Boscoli, R., Method and machine for producing energy by nuclear fusion reactions
207. Bostick, W., plasmoids
208. Botter, F., Search for emission of neutrons from a palladium-deuterium system
209. Boucher, G. R., Separation factors for hydrogen isotopes on palladium
210. Bower, B., Peer Review Under Fire
211. Bowker, J., The use of palladium to obtain reproducible boundary conditions for permeability measurements using galvanostatic charging
212. Bracci, L., A Dynamical Calculation of the Electron Shielding for d-d Fusion
213. Bracci, L., Nuclear fusion in molecular systems
214. Bradley, J. C., contactless electrodeposition of palladium catalysts
215. Brady, S. K., nmr comparisons of nanocrystalline and coarse-grained palladium hydride and deuteride
216. Braun, T., world flash on cold fusion, no. 2
217. Bressani, T., First steps toward an understanding of 'cold' nuclear fusion
218. Briand, J. P., Cold fusion rates in titanium foils
219. Briand, J. P., Cold fusion: an alternative diagnostic
220. Briceno, R. A., nuclear reactions from lattice qcd
221. Brightsen, R. A., Application of the Nucleon Cluster Model to Experimental Results
222. Brightsen, R. A., cluster theory
223. Brightsen, R. A., Correspondence of the Periodic Table of Beta-Stable Nuclides with the Classical Periodic Table of Elements
224. Brightsen, R. A., explanation of cold fusion reactions based on the nucleon cluster model (ncm)
225. Brightsen, R. A., the nucleon cluster model and the periodic table of beta-stable nuclides
226. Broad, W. J., A Frenzy Over Fusion in Hundreds of Labs
227. Broad, W. J., A tempest in a test tube, 10 years later
228. Broad, W. J., G.E. and U. of Utah Join in'Cold' Fusion Pact
229. Broad, W. J., New Class of Lightning Found High Above Clouds
230. Broad, W. J., Science Times: Despite Scorn , Some Scientists Still Seek Cold Fusion Clues
231. Broad, W. J., Signs of 'Cold' Fusion are Cited Cautiously
232. Broer, M. M., Search for neutrons from deuterium-deuterium nuclear reactions in electrochemically charged Palladium
233. Brown, J.S., enhanced low energy fusion rate in palladium (pd) due to vibrational deuteron dipole-dipole interactions and associated resonant tunneling that over-cancels the jastrow factor between deuteron pair wavefunctions
234. Brown, N. E., Differential Cross Sections at Low Energies for 2H(d,p)3H and 2H(d,n)3He
235. Browne, M. W., New Shot at Cold Fusion by Pumping Sound Waves into Tiny Bubbles
236. Brownsberger, K., x-ray diffraction, lattice structure, and equation of state of pdhx and pddx to megabar pressures
237. Brudanin, V. B., Does cold nuclear fusion exist?
238. Brudanin, V. B., Once more about cold nuclear fusion
239. Brudanin, V. B., Search for the cold fusion d(d,(4)He) in electrolysis of D2O
240. Bruggeman, A., Studiecentrum Voor Kernenenergie
241. Bruschi, L., Search for neutron emission from a deuterium-titanium system"
242. Bucur, R., The Establishment of Equilibria in the Isotopic Distribution of Hydrogen and Deuterium Between Palladium and Aqueous Solutions
243. Buehler, D. B., possible gamma bursts from gas loaded ti chips
244. Bukonte, L., thermodynamics of impurity-enhancedvacancy formation in metals
245. Bullock, J. S., Electrochemical factors in cold fusion experiments
246. Bunch, K. J., Self-consistent field calculations on diatomic hydrogen in a potential well
247. Burch, R., On the role of silver atoms in the absorption of hydrogen by palladium-silver alloys
248. Burger, J. P., Electrical Resistivity of Pd-Hx: Residual Resistivity
249. Burke, L. D., an examination of the electrochemical behavior of palladium electrodes in base
250. Burke, L. D., An examination of the electrochemical behavior of palladium electrodes in acid
251. Burrows, A., Enhancement of cold fusion in metal 'hydrides' by screening of proton and deuteron charges
252. Burton, P. D., facile, surfactant-free synthesis of pd nanoparticles for heterogeneous catalysts
253. Busch, M. P., Nucear Fusion Reactor and Method, Patent Disclosure
254. Bush, B. F., cold fusion/cold fission to account for radiation remediation
255. Bush, R. T., A light water excess heat reaction suggests that 'cold fusion' may be 'alkali-hydrogen fusion'
256. Bush, R. T., A Transmission resonance Model for Cold Fusion
257. Bush, R. T., is it possible that anomalies associated with the excess heat effect were observed in the 1950's?: the transmission resonance model (trm) answers affirmatively
258. Bush, R. T., Production of Tritium, Neutrons, and Heat Based Upon the Transmission Resonance Model (TRM) for Cold Fusion
259. Bussard, R. W., Virtual-state internal nuclear fusion in metal lattices
260. Butler, M. A., High-sensitivity search for neutrons during electrochemical reactions
261. Cali, G. J., Electrochemical Regeneration of Clean and Well-Ordered Pd(111) Surface
262. Camp, W. J., Helium Detrapping and Release from Metal Tritides
263. Campanati, M., fundamentals in the preparation of heterogeneous catalysts
264. Campbell, R. B., A study of 'cold fusion' in deuterated titanium subjected to high-current densities
265. Cannizzaro, F., Search for neutrons as evidence of cold fusion
266. Carazzolle, M. F., surface composition and structure of palladium ultra-thin films deposited on ni(111)
267. Cardone, F., experimental and phenomenological comparison between piezonuclear reactions and condensed matter nuclear science phenomenology
268. Cardone, F., neutrons from piezonuclear reactions
269. Cardone, F., piezonuclear neutrons from fracturing of inert solids
270. Cardone, F., speeding up thorium decay
271. Carey, J., Fusion in a Bottle: Miracle or Mistake?
272. Carpinteri, A., cold nuclear fusion explained by hydrogen embrittlement and piezonuclear fissions of the metallic electrodes
273. Carpinteri, A., compositional and microchemical evidence of piezonuclear fission reactions in rock specimens subjected to compression tests
274. Carpinteri, A., geomechanical and geochemical evidence of piezonuclear fission reactions in the earth's crust
275. Carpinteri, A., piezonuclear transmutations in brittle rocks under mechanical loading: microchemical analysis and geological confirmations
276. Carson, A. W., Absorption of Hydrogen by Palladium/Platinum Alloys
277. Carson, A. W., Electrode Potentials and Compound Formation in the Palladium-Platinum-Hydrogen System
278. Carson, A. W., Proton Transfer Between Pd/H and Pd/Pt/H Electrodes
279. Carstens, D. H. W., An Apparatus for Studies of Hydrogen Isotope Exchange over Metals Using Laser-Raman Spectroscopy
280. Carstens, D. H. W., Equilibrium Measurements in the Beta Region of Palladium Protide and Palladium Deuteride
281. Carter, J. D., energy shifts of rydberg atoms due to patch fields near metal surfaces
282. Case, L. C., The reality of 'cold fusion'
283. Casimir, H.B.G., introductory remarks on quantum electrodynamics
284. Castellan, G. W., Electrochemical behavior of the palladium-hydrogen system.(II). Thermodynamic considerations
285. Catlett, D. S., Hydrogen Transport in Lithium Hydride as a Function of Pressure
286. Cecil, F. E., Measurement and Application of DDg, DTg and D3Heg Reactions at Low Energy
287. Cecil, F. E., Study of energetic charged particles emitted from thin deuterated palladium foils subject to high current densities
288. Cedzynska, K., Tritium analysis in palladium with an open system analytical procedure
289. Celani, F. ., a study on the electrochemistry parameters to achieve reproducible high h/pd and d/pd vlues in relation to anomalous excess heat: proteobacteria contamination problematics
290. Celani, F. ., abstracts and letter to c. white
291. Celani, F., D/Pd Loading Ratio up to 1.2:1 by High Power S Pulsed Electrolysis in Pd Plates
292. Celani, F., first results about hydrogen loading by means of pulsed electrolysis of yba2cu3o7 pellets
293. Celani, F., high hydrogen loading of thin palladium wires through alkaline earth carbonates precipitation on the cathodic surface-evidence of a new phase in the pd-h system
294. Celani, F., Preliminary Measurements on Electrolytic Cold Fusion at Underground Gran Sasso Laboratory
295. Cerofolini, G. F., Giant Neutron Trapping by a Molecular Species Produced During the Reaction of D+ With H- in a Condensed Phase
296. Chambers, G. P., Charged particle spectra of palladium thin films during low energy deuterium ion implantation
297. Chambers, G. P., glow discharge in deuterium
298. Chambers, G. P., Upper limit on cold fusion in thin palladium films
299. Champion, J., explanation of observed nuclear events associated with cold fusion and similar low energy nuclear reactions
300. Champion, J., phonon conversion of ag to au
301. Chandler, D. L., Fusion : Test Tube Yields More Questions Than Answers
302. Chase, M. W., janaf thermochemical tablers
303. Chatterjee, L., Could spectator electrons legalize cold fusion?
304. Chatterjee, L., Electrolysis in thin-film nickel coatings: mimicking supernova physics?
305. Chatterjee, L., The two faces of the Coulomb barrier
306. Chechin, V. A., On the nonstationary quantum-mechanical origin of nuclear reactions in solids
307. Chemla, M., Experimental investigation of thermal and radiation effects induced by deuterium discharge at the palladium electrode
308. Chen, A., palladium-based nanomaterials: synthesis and electrochemical applications
309. Chen, B. R., Theoretical studies of the effect of hydrogen-hydrogen interactions on the structural and dynamical properties of metal/hydrogen clusters
310. Chen, C. L., Electrolytic hydrogen transport in palladium
311. Chen, C-C, three-dimensional imaging of dislocations in a nanoparticle at atomic resolution
312. Chen, M., Measurements of neutron emission induced by muons stopped in metal deuteride targets
313. Chen, S., alkanethiolate-protected copper nanoparticles: spectroscopy, electrochemistry, and solid-state morphological evolution
314. Chen, T., interstitial boron atoms in the palladium lattice of an industrialtype of nanocatalyst: properties and structural modifications
315. Chen, X., atomic layer lithography of wafer-scale nanogap arrays for extreme confinement of electromagnetic waves
316. Chene, J., Tritium production during the cathodic discharge of deuterium on palladium
317. Cho, Y., Novel ultrasonic attenuation peak in a'-PdDx
318. Chon, A., Classical Tunneling
319. Chou, I, Permeability of Precious Metals to Hydrogen at 2 KB Total Pressure and Elevated Temperatures
320. Chou, P., Calorimetric Heat of Adsorption Measurements on Palladium. I. Influence of Crystallite Size and Support on Hydrogen Adsorption
321. Christensen, N. E., spin-orbit projected d densities-of-states of pd, ag, pt, and au
322. Christensen, O. B., Effective-Medium Calculations for Hydrogen in Ni, Pd, and Pt
323. Christensen, O. B., H-H Interactions in Pd
324. Chrzan, D. C., Helium Bubble Growth by the Dislocation Pipe Diffusion Mechanism
325. Chubb, S. R., Ion band state fusion: reactions, power density, and the quantum reality question
326. Chubb, T. A., Bloch-symmmetric fusion in PdD(x)
327. Chubb, T. A., fusion reactions in deuterided palladium. the why of cold fusion heat
328. Chubb, T. A., lattice-assisted nuclear fusion
329. Chubb, T. A., wave function overlap and nuclear reactions in d+ ion band state matter
330. Chubb, T., revised thoughts on the liaw et al. anodic electrolysis excess heat process
331. Chulick, G. S., Comment on "Cluster-Impact Fusion by P. M. Echenique et al
332. Chulick, G. S., Low Energy D-D Fusion Experimental Cross-Sections
333. Chulick, G. S., The Effect of Electron Screening and Velocity Distribution on Proton-Deuterium Fusion Rates in Jupiter
334. Cirillo, D., water plasma modes and nuclear transmutations on the metallic cathode of a plasma discharge electrolytic cell
335. Clark, E. L., energetic heavy-ion and proton generation from ultraintense laser-plasma interactions with solids
336. Clarke, B. W., dissolved helium in lakes: uranium prospecting in the precambrian terrain in central labrador
337. Clarke, B. W., excess 3he in the sea: evidence for terrestrial primordial helium
338. Clarke, B. W., on the production of 4he in the "l.c. case experiment"
339. Clarke, W. B., Determination of Tritium by Mass Spectrometric Measurement of 3He
340. Claytor, T. N., solid state fusion update
341. Claytor, T. N., tritium production from a low voltage deuterium discharge of palladium and other metals (jne)
342. Claytor, T. N., tritium production from low voltage deuterium discharge on palladium and other metals
343. Clewley, J. D., thermodynamic properties of hydrogen and deuterium dissolved in palladium at low concentrations over a wide temperature range
344. Cobden, P.D., formation and decomposition of palladium hvdride particles imaging pictures on the nanometre scale
345. Coehn, A., nachweis von protonen in metallen
346. Cohen, J. S., Is cold fusion hot?
347. Cohen, J. S., The cold fusion family
348. Cohen-Qdad, M. Th., phase diagrams at high temperature and high pressure. determination and consequent developments
349. Collins, G. W., heating from atom recombination in solid hydrogen: implications for cold fusion experiments
350. Conway, B. E., Significance of effects of pressure on electrode reactions.Part III.Equilibrium processes at reference electrodes and the volume of H in Pd
351. Conway, B. E., Time-scales of electrochemical desorption and sorption of H in relation to dimensions and geometeies of host metal hydride electrodes
352. Cook, N. D., on the nuclear mechanisms underlying the heat production by the "e-cat"
353. Cooper, D., hydrogen storage characteristics of nickel nanoparticle coated magnesium prepared by dry particle coating
354. Cooper, R.L., radiative decay of the free neutron
355. Correa, P. N., non-equilibrium between work performed by charge against gravity and the electric energy of the same 'charge gas' quantum
356. Corrigan, D. A., Tritium separation effects during heavy water electrolysis: implications for reported observations of cold fusion
357. Cottingham, W. N., The fusion rate of a confined deuteron pair
358. Coverdale, C., neutron production and implosion characteristics of a deuterium gas-puff z pinch
359. Cox, D. M., Abnormally Large Deuterium Uptake on Small Transition Metal Clusters
360. Craig, H., oceanic 3he: contribution from cosmogenic tritium
361. Crouch-Baker, S., calorimetric study of two metallic samples
362. Crowley, B. J. B., Nuclear Fusion in High Density Matter
363. Cunnane, V. J., H2 + O2 recombination in non-isothermal, non-adiabatic electrochemical calorimetry of water electrolysis in an undivided cell
364. Czerski, K., Experimental and theoretical screening energies for the 2H(d, p)3H reaction in metallic environments
365. Czerwinski, A., Influence of cesium cations on hydrogen and deuterium electrosorption in palladium
366. Czerwinski, A., The absorption of hydrogen and deuterium in thin palladium electrodes. Part II: Basic solutions
367. Czerwinski, A., The absorption of hydrogen and deuterium in thin palladium electrodes. Part III: The influence of solution composition
368. Daddi, L., On a possible role of the virtual neutrons in cold fusion
369. Daddi, L., Proton-electron reactions as precursors of anomalous nuclear events
370. Dag, S., adsorption and dissociation of hydrogen molecules on bare and functionalized carbon nanotubes
371. Dagani, R., Advocates,Skeptics Alike Still Puzzled by Cold Fusion
372. Dagani, R., Cold Fusion Believer Turned Skeptic Crusades for More Rigorous Research
373. Dagani, R., Nuclear Fusion: Utah Findings Raise Hopes, Doubts
374. Dalard, F., Electrochemical incorporation of lithium into palladium from aprotic electrolytes
375. Dandapani, B., Electrolytic Separation Factors on Palladium
376. Dannetun, H. M., The H2-O2 Reaction on Palladium Studied Over a Large Pressure Range: Independence of the Microscopic Sticking Coefficients on Surface Condition
377. Danos, M., Coulomb-assisted cold fusion
378. Danos, M., Coulomb-assisted cold fusion in solids
379. Darby, M. I., Site Preference of Dilute Hydrogen in Palladium
380. Das, A., polariton bose-einstein condensate at room temperature in an al(ga)n nanowire-dielectric microcavity with a spatial potential trap
381. David Tom nek, * Steffen Wilke, hydrogen-induced polymorphism of the pd(110) surface
382. Davidson, K., Cold Fusion Not Dead Yet
383. Davidson, M., on the m ssbauer effect and the rigid recoil question
384. Davidson, M., theories of variable mass particles and low energy nuclear phenomena
385. Davies, J. D., A Direct Measurement of the Alpha-Muon Sticking Coefficient in Muon-Catalysed d-t Fusion
386. Davies, J. D., Search for 2.5 MeV neutrons from D2O (heavy water) electrolytic cells stimulated by high-intensity muons and pions
387. De Ninno, A., Emission of neutrons as a consequence of titanium-deuterium interaction
388. Deakin, M. R., Search for cold fusion using x-ray detection
389. Debowska, L., penetration depths of hydride phases in cylindrical ni samples and in ni-rich pd-ni alloys
390. Dekhtyar, I. Ya., Positron Annihilation in the System Palladium-Hydrogen
391. Demokritov, S. O., bose-einstein condensation of quasi-equilibrium magnons at room temperature under pumping
392. Derjaguin, B. V., Excitation of nuclear reaction under mechanical effect (impact) on deuterated solids
393. Derjaguin, B. V., Titanium fracture yields neutrons?
394. Di Pascasio, F., h2 plasma for hydrogen loading in pd
395. Dias, R. P., observation of the wigner-huntington transition to metallic hydrogen
396. Dickinson, J. T., Fracto-emission from deuterated titanium: Supporting evidence for a fracto-fusion mechanism
397. Diculescu, V. C., palladium nanoparticles and nanowires deposited electrochemically:afm and electrochemical characterization
398. Dienes, J. K., On nuclear reactions in defects
399. Dignan, T. G., A search for neutrons from fusion in a highly deuterated cooled palladium thin film
400. Ding, Y., Electrochemical Characterization of Ni in Hydride-containing Molten Salts
401. Divisek, J., Energy balance of D2O electrolysis with a palladium cathode. Part II. Experimental results
402. Dmitriyeva, O., test of zero-point energy emission from gases flowing through casimir cavities
403. Dodonov, A. V., tunneling of slow quantum packets through the high coulomb barrier
404. dos Santos, D. S., a high pressure investigation of pd and the pd-h system
405. dos Santos, D.S., analysis of the nanopores produced in nickel and palladium by high hydrogen pressure
406. Doyle, A. M., alkene chemistry on the palladium surface nanoparticles vs single crystals
407. Dragan, G., Topoenergetic evidence of cold fusion phenomena
408. Drexler, J., Self-catalyzed nuclear fusion of lithium-6 and deuterium using alpha particles
409. Driessen, A., hydride formation at very high hydrogen pressure
410. Droege, T. F., A Discussion of an H2O run which followed Operation with D20
411. Du, J-P., hydrogen-enhanced vacancy diffusion in metals
412. Dufour, J., Cold fusion by sparking in hydrogen isotopes
413. Dufour, J., excess energy in the system palladium/hydrogen isotopes. measurement of excess energy per atom hydrogen
414. Dufour, J., Experimental observation of nuclear reactions in palladium and uranium -- possible explanation by hydrex mode
415. Durocher, J. J. G., A search for evidence of cold fusion in the direct implantation of palladium and indium with deuterium
416. Dus, R., segregation of deuterium and hydrogen on surfaces of palladium deuteride and hydride at low temperatures
417. Dwyer, J. R., high-energy atmospheric physics: terrestrial gamma-ray flashes and related phenomena
418. Early, J. G., Hydrogen diffusion in palladium by galvaostatic charging
419. Eastman, J. A., narrowing of the palladium-hydrogen miscibility gap in nanocrystalline palladium
420. EBISUZAKI, Y., diffusion and solubility of hydrogen in single crystals of nickel and nickel vanadium alloy
421. Echenique, P. M., Cluster-Impact Fusion
422. Editorial, Cold Confusion, and Cold Results from Utah
423. Editorial, coming in from the cold
424. Eggers, H. C., Strangeness and Quark Gluon Plasma: Aspects of Theory and Experiment
425. Egorov, V.K., about cold fusion possibilities in frame of the waveguideresonance propagation of radiation fluxes
426. Ehrlich, A. C., a search for neutrons in single-phase palladium-deuterium
427. Ellison, C. H., An investigation of reports of fusion reactions occurring at the cathode in glow discharges
428. Enyo, M., Hydrogen absorption in palladium electrodes in alkaline solutions
429. Ericsson, G., comments on the "reply to comment on piezonuclear decay of thorium [phys. lett. a 373 (2009) 1956] [phys. lett. a (2009, in press]" [phys. lett. a (2009), in press] by f. cardone et. al
430. Errea, I., inverse isotope effect in palladium hydrides explained by the self-consistent harmonic approximation
431. Evans, J. B., thermodynamics of the solution of hydrogen and deuterium in palladium
432. Evans, P., reply to patent office
433. Everett, D. H., crystallite size effects in the palladium/hydrogen system: a simultaneous sorption and x-ray study
434. Ewing, R. I., High-sensitivity neutron detectors used at Sandia National Laboratories to monitor and diagnose 'cold fusion' experiments: negative results
435. Ewing, R. I., Negative results and positive artifacts observed in a comprehensive search for neutrons from 'cold fusion'
436. Faccini, R., further investigations on the neutron flux generation in a plasma discharge electrolytic cell
437. Faccini, R., search for neutron flux generation in a plasma discharge electrolytic cell
438. Fairhall, A. W., concerning the source of the excess 3he in the sea
439. Fallavier, J., Srearch for Nuclear Fusion in Deuterated Targets under Cluster-Beam Impact
440. Faller, S. H., Investigation of cold fusion in heavy water
441. Fang, P. H., Deuterium fusion through nonequilibrium induction
442. Farkas, A., On the electrolytic separation of the hydrogen isotopes on a palladium cathode
443. Farrell, J. J., an alternative explanation of extreme ultraviolet emission from dark matter
444. Fayet, P., Palladium Clusters: H2, D2, N2, CH4, CD4, C2H4, and C2H6 Reactivity and D2 Saturation Studies
445. Fazle Kibria, A. K. M., pressure-composition and electrical resistance-composition isotherms of palladium-deuterium system
446. Feenstra, R., Critical Point Lowering in Thin Pd-H Films
447. Feenstra, R., Gravimetrical Determination of Pressure-Composition Isotherms of Thin Pd-H Films
448. Feenstra, R., Hydrogen Induced Lattice Expansion and Effective H-H Interaction in Single Phase PdHc
449. Felderhoff, M., high temperature metal hydrides as heat storage materials for solar and related applications
450. Fendler, J. H., chemical self-assembly for electronic applications
451. Feng, S., Enhancement of cold fusion rate by electron polarization in palladium deuterium solid
452. Ferguson, G. A., neutron diffraction study of temperature-dependent properties of palladium containing absorbed hydrogen
453. Ferlaino, F., forty years of efimov physics: how a bizarre prediction turned into a hot topic
454. Fern andez, F., observations of x-ray emission and matter collapse in lead
455. Fernandez, J. F., Experimental investigation of neutron emissions during thermal cycling of TiDx (x = ca. 2.00)
456. Feugeas, J., Comments on "Evidence of micrometre-sized plasmoid emission during electrolysis cold fusion
457. Fiarman, S., energy levels of light nuclei a=4
458. FIC, cold fusion patents world wide
459. Filho, W. W., the quantum oscillatory modulated potential i the hydrogen atom
460. Filho, W. W., the quantum oscillatory modulated potential part ii, the stability of the hydrogen atom
461. Fischer, U., Neutron Emission Observed During the Electrical Explosion of Deuterated Liquids of Metallic Conductivity
462. Fisher, A., Much Ado About
463. Fishman, R. S., Binding of charged particles in lattice defects
464. Fitzpatrick, T., Cold Fusion Meet Ends Without Agreement
465. Flach, S., discrete breathers advances in theory and applications
466. Flanagan, T. B., Absorption of Deuterium by Palladium
467. Flanagan, T. B., Consequences of the Proton Model for Hydrogen Adsorption in the b Phase of the Hydrogen-Palladium System
468. Flanagan, T. B., Electrode Potentials of the Palladium + Hydrogen System
469. Flanagan, T. B., Hydrogen Absorption by Palladium in Aqueous Solution
470. Flanagan, T. B., hydrogen in disorderedand ordered palladium alloys
471. Flanagan, T. B., hydrogen solu bility as a probe for monitoring recovery in palladium
472. Flanagan, T. B., hysteresis in solid state reactions
473. Flanagan, T. B., Isobaric and Isothermal Hysteresis in Metal Hydrides and Oxides
474. Flanagan, T. B., relationships between electrical resistance and the hydrogen content of palladium
475. Flanagan, T. B., The effect of cycling through the hydride phase on isotherms for fcc Pd-rich alloys
476. Flanagan, T. B., The Effect of Hysteresison the Phase Diagram of Pd-H
477. Flanagan, T. B., The Effect of Lattice Defects on Hydrogen Solubility in Palladium, I. Experimentally Observed Solubility Enhancements and Thermodynamics of Absorption
478. Flanagan, T. B., The Palladium-Hydrogen System
479. Flanagan, T. B., Thermodynamics and hysteresis for hydrogen solution and hydride formation in Pd-Ni alloys
480. Fleischmann, M., Measurements of gamma-rays from cold fusion
481. Fleischmann, M., The behavior of microdisk and microring electrodes
482. Fleming, J. W., Calorimetric studies of electrochemical incorporation of hydrogen isotopes into palladium
483. Fleury, V., rapid electroplating of insulators
484. Flitt, H. J., Concerning Adsorbed and Absorbed Hydrogen on and in Ferrous Metals
485. Fort, D., a comparison of palladium- silver and palladium -yttrium alloys as hydrogen separation membra es
486. Fox, H., A Survey of Current International "Cold Fusion" Research
487. Fox, H., Low-energy nuclear reactions and high-density charge clusters
488. Fox, H., Operating the LENT-1 transmutation reactor: Preliminary report
489. Fox, H., Plasma-injected transmutation
490. Frazier, G. A., Charcterization of Thin Films of the Pd-H System
491. Frenje, J. A., absolute measurements of neutron yields from dd and dt implosions at the omega laser facility using cr-39 track detectors
492. Friedlander, G., nuclear and radiochemistry
493. Frolov, A. M., On stimulated nuclear fusion in the cold generalized DT hydrides of fissionable elements
494. Fromm, E., Gases and Carbon in Metals
495. Fujita, S., On the feasibility of nuclear fusion in fcc metals
496. Fukada, Y., in situ x-ray diffraction study of crystal structure of pd during hydrogen isotope loading by solid-state electrolysis at moderate temperatures 250-300 c
497. Fukada, Y., multiple phase separation of super-abundant-vacancies in pd hydrides by all solid-state electrolysis in moderate temperatures around 300 c
498. Fukai, Y., Hydrogen-Induced Superabundant Vacancies in Metals: Implication for Electrodeposition
499. Fukai, Y., evidence of copious vacancy formation in ni and pd under a high hydrogen pressure
500. Fukai, Y., formation of superabundant vacancies in m-h alloys and some of its consequences: a review
501. Fukai, Y., Formation of superabundant vacancies in Pd hydride under high hydrogen pressures
502. Fukai, Y., From Metal Hydrides to the Metal-Hydrogen System
503. Fukai, Y., Hydrogen Diffusion in Metals-Unsolved Problems
504. Fukai, Y., Some Properties of the Fe-H System at High Pressures and Temperatures. and their Implications for the Earth's Core
505. Fukai, Y., some unsolved problems of hydrogen in metals
506. Fukai, Y., superabundant vacancy formation in ni-h alloys
507. Fukai, Y., superabundant vacancy-hydrogen clusters in electrodeposited ni and cu
508. Fukai, Y., the phase diagram of the ni-h system revisited
509. Fukuhara, M., Possible dynamic interaction of deuterons between tetrahedral and octahedral interstices of palladium lattice at cryogenic temperatures
510. Fullenwider, M., A Method for the Determination of Energy Gaps in Hydrogen-Metal Systems
511. Fullenwider, M., Electrochemical current balance with the hydrogen-palladium system
512. Gai, M., Upper limits on neutron and gamma-ray emission from cold fusion
513. Gajevic, J., electron screening in nickel
514. Gajewski, R., investigation of some aspects of cold fusion
515. Galaktionowa, N. A., hydrogen-metal systems databook
516. Gamarra, N., Erroneous Predictions
517. Ganz, J., Cold Fusion : Will It Be Harnessed?
518. Garai, J., the electronic structures of the atoms
519. Garwin, R. L., Consensus on Cold Fusion
520. Gdowski, G. E., Effect of Surface Temperature on the Sorption of Hydrogen by Pd(111)
521. Geballe, Z.M., high-pressure synthesis and thermodynamic stability of pdh1 e up to 8 gpa
522. Geng, J., nickel formate route to the growth of carbon nanotubes
523. George, R., observations of helium bubbles in thin palladium metal foil using scanning electron microscopy
524. George, R., production of 4he from deuterium during contact with nano-particle on carbon at 200 c and 3 atmosphere deuterium pressure
525. George, R., production of he-4 from deuterium during contact with nano-particle palladium on carbon at 200 c and 3 atmosphere deuterium pressure
526. George, R., production of he4 from deuterium via reaction on a palladium carbon hydrogenation catalyst at 200 c
527. George, R., Technical report on the demonstration of new technology producing heat and nuclear products via cavitation induced micro-fusion in E-quest sciences Mark II research device
528. Gerstein, S. S., the critical test experiments in cold fusion
529. Gibb, T. R. P., Lattice-Distension and the Magnetic Susceptibility of Palladium Hydride
530. Gibbs, W. W., plan b for energy
531. Gileadi, E., the permeation of electrolytic hydrogen through platinum
532. Gillespie, D. J., A search for anomalies in the palladium-deuterium system
533. Gillespie, L. J., The Palladium-Deuterium Equilibrium
534. Giordano, N., Thermal effects during the electrolytic charging of deuterium in the palladium lattice
535. Gittus, J., Explanations of cold fusion (section editor's title)
536. Godshall, N. A., Calorimetric and thermodynamic analysis of palladium-deuterium electrochemical cells
537. Gold, T., New ideas in science
538. Goldanskii, V. I., Mechanism of solid-state fusion (Title given by Letters editor)
539. Goldanskii, V. I., On the possibilities of 'cold enhancement' of nuclear fusion
540. Goloborodsky, B., Long-Range Effects in the FePd2Au Alloy Under Ion Bombardment
541. Goltsova, M.V., reverse hydride transformations in the pd-h system
542. Golubnichii, P. I., Possible mechanism of cold nuclear fusion
543. Gomez, M. A., quantum mechanics of hydrogen on nickel and palladium clusters
544. Gonzales-Martin, A., some in situ stm contributions to characterization of electrochjemical systems
545. Goods, S. H., mechanical properies of palladium and palladium hydride
546. Goods, S. H., Mechanical Properties of Palladium and Palladium Hydride
547. Goodstein, D., Pariah Science. Whatever Happened to Cold Fusion?
548. Goodwin, I., Fusion in a Flask: Expert DOE Panel Throws Cold Water on Utah Discovery
549. Goon, E. J., The Non-Stoichiometry of Lathanum Hydride
550. Gordiz, K., enhancement of ion diffusion by targeted phonon excitation
551. Gottesfeld, S., Experiments and nuclear measurements in search of cold fusion processes
552. Gottesfeld, S., Experiments and Nuclear Measurements in Search of Cold Fusion Proceses
553. Govorov, B. V., Neutron Emission from Palladium Alloys Saturated with Deuterium
554. Grabowski, K. S., particle emission from low energy proton bombardment of tih2 and tid2
555. Granada, J. R., Neutron measurements on electrolytic cells (Pd-D2O) performed under very low background conditions
556. Granada, J. R., Thermal neutron measurements on electrolytic cells with deuterated palladium cathodes subjected to a pulsed current
557. Graneau, P., arc-liberated chemical energy exceeds electrical input energy
558. Graneau, P., The role of Ampere forces in nuclear fusion
559. Greber, T., Cold Fusion Experiments in Fribourg
560. Green, B. A., Quantitative determination of high-Tc superconductivity from the lattice polarization, structure effect and approach
561. Green, J. A. S., Overvoltage Component at Palladized Cathodes of Palladium and Palladium Alloys Prior to and During Bubble Evolution
562. Green, T. A., Electrolytic preparation of highly loaded deuterides of palladium
563. Green, T. A., Kinetics of the deuterium and hydrogen evolution reactions at palladium in alkaline solutions
564. Greenland, T., Issues connected with cold fusion: a room temperature mechanism for the production of x-rays
565. Greiner, W., New Radioactivities
566. Griessen, R., Effect of anharmonicity and Debye-Waller Factor on the Superconductivity of PdHx and PdDx
567. Griffin, Sir A., water as a fuel
568. Grotz, T., Investigation of reports of the synthesis of iron via arc discharge through carbon compounds
569. Gruber, J., "cold fusion" and space energy technology
570. Gryaznov, V. M., Palladium Alloys as Hydrogen Permeable Catalysts in Hydrogenation and Dehydrogenation Reactions
571. Gu, A. G., Experimental study on cold fusion using deuterium gas and deuterium ion beam with palladium
572. Gu, A. G., Preliminary experimental study on cold fusion using deuterium gas and deuterium plasma in the presence of palladium
573. Guan, P-W., combining pressure and electrochemistry to synthesize palladium superhydrides
574. Guggeler, H. W., Cold Fusion Reactions with 48Ca
575. Guinan, M. W., Catalysis of Deuterium Fusion in Metal Hydrides by Cosmic Ray Muons
576. Gupta, M., The electronic structure and its relationship to superconductivity in NiH
577. Gupta, S. D., Process and apparatus for generating high density hydrogen in a matrix
578. Gurov, Yu.B., spectroscopy of superheavy hydrogen isotopes 4h and 5h
579. Gurrath, M., Palladium Catalysts on Activated Carbon Supports, Influence of Reduction Temperature, Origin of the Support and Pretreatments of the Carbon Surface
580. Guthrie, S. E., Helium Effects on Palladium Hydride Equilibrium Properties
581. Gygax, F. N, Local Hydrogen Arrangement Around the + in a PdH0.74 Single Crystal
582. Habart, E., molecular hydrogen
583. Hadgeri, J. M., hydrogenation activity and selective behavior of supported palladium nanoparticles
584. Hage, H., Boundary conditions in electrochemical measurements of diffusion coefficients of hydrogen in a-palladium
585. Hagelstein, P. I., anomalies in metal deuterides
586. Hagelstein, P. L., a simple model for coherent d-d fusion in the presence of a lattice
587. Hagelstein, P. L., Coherent Fusion Theory
588. Hagelstein, P. L., Electron mass shift in nonthermal systems
589. Hagelstein, P. L., phonon interactions in coherent fusion
590. Hagelstein, P. L., rates for neutron and tritium production in coherent d-d fusion
591. Hagi, H., Diffusion coefficient of hydrogen in palladium films prepared by RF sputtering
592. Hajdas, W., Search for cold fusion events
593. Hale, G. M., Nuclear reactions and screened-Coulomb fusion rates
594. Halley, J. W., Estimate of nuclear fusion rates arising from a molecular-dynamics model of palladium deuteride
595. Hamer, W. J, a hydrogen isotope of mass 2
596. Hamm, S.C., optimal surface doping of lead for increased electrochemical insertion of hydrogen into palladium
597. Handel, P., Intermittency, irreproducibility, and the main physical effects in cold fusion
598. Hanksworth, M. R., Cold Neutron Radiography of Hydrogenated Palladium
599. Hansen, L. D., A response to hydrogen + oxygen recombination and related heat generation in undivided electrolysis cells
600. Hansen, L. D., cooperative investigation of anomalous effects in pd/liod electrolytic cells
601. Hanson, A. O., A Neutron Detector Having Uniform Sensitivity from 10 Kev to 3 MeV
602. Harb, J. N., Statistical analysis of neutron burst size and rate during electrolysis of LiOD solutions
603. Hargitai, C., Considerations on cold nuclear fusion in palladium
604. Hargrave, C., Cold Fusion: A Glimpse into the Future
605. Harith, M. A., Theoretical and experimental studies on the cold nuclear fusion phenomena"
606. Harper, J. M. E., effect of hydrogen concentration on superconductivity and clustering in palladium hydride
607. Hasegawa, H., Effect of Hydrogen on the Mechanical Properties of Pd
608. Hassam, A B., Deuterium molecule in the presence of electronic charge concentrations: implications for cold fusion
609. Hawkins, N., Possible natural cold fusion in the atmosphere
610. Hayden, M. E., High precision calorimetric search for evidence of cold fusion using in situ catalytic recombination of evolved gases
611. Heckman, N.M., new nanoscale toughening mechanisms mitigate embrittlement in binary nanocrystalline alloys
612. Hemmes, H., Contribution of optical phonons to the thermal expansion of PdHx and a'-PdDx
613. Henderson, R. A., More searches for cold fusion
614. Herrero, C., Location of the Low Temperature Resistivity Anomaly in Pd-D
615. Herrmann, G., Five Decades Ago: From the "Transuranics" to Nuclear Fission
616. Herzog, R. F., Fusion in a Solid: A Pump Primer
617. Hill, J. C., Search for cold fusion using Pd-D2O cells and Ti-D mixtures
618. Hioki, T., inductively coupled plasma mass spectrometry study on the increase in the amount of pr atoms for cs-ion-implanted pd/cao multilayer complex with deuterium permeation
619. Hirooka, Y., A Study of Hydrogen Absorption and Desorption By Titanium
620. Ho, E. C., an in situ electron microscope study of precipitation in palladium hydrogen alloys
621. Ho, N. S., The Electrical Resistivity of Palladium-Hydrogen and Palladium-Deuterium Alloys between 4 and 300 K
622. Hoare, J. P., Electrochemical behavior of the palladium-hydrogen system(III). Gas-charged palladium alloys
623. Hoare, J. P., Mechanisms of hydrogen producing reactions on palladium. III. Hydrogen overvoltage on the polarization and diffusion sides of a cathode-diagram
624. Hodgkinson, N., Nuclear Confusion
625. Hoffman, N. J., book review of taubes' book
626. Hoffmann, B., Hydrogen Uptake by Palladium-Implanted Titanium Studied by NRA and RBS
627. Holleck, G. L., The mechanism for the isotopic exchange between deuterium and acidic solutions on palladium surfaces
628. Hollenbach, D. F., deep-earth reactor: nuclear fission, helium, and the geomagnetic field
629. Holmlid, L., coherent broadband light effects in grating spectrometer studies of emission from alkali atoms at surfaces
630. Holmlid, L., electronic transitions in rydberg matter as the source of the unidentified infrared bands (uir) observed in interstellar space
631. Holmlid, L., existing source for muon-catalyzed nuclear fusion can give megawatt thermal fusion generator
632. Holmlid, L., nanometer interatomic distances in rydberg matter clusters confirmed by phase-delay spectroscopy
633. Holmlid, L., precision bond lengths for rydberg matter clusters kn (n = 19, 37, 61 and 91) in excitation levels n = 4 - 8 from rotational radiofrequency emission spectra
634. Holmlid, L., spontaneous ejection of high-energy particles from ultra-dense deuterium d(0)
635. Holmlid, L., ultradense protium p(0) and deuterium d(0) and their relation to ordinary rydberg matter: a review
636. Holmlid, L., ultrahigh-density deuterium of rydberg matter clusters for inertial confinement fusion targets
637. Hong, K. C., kinetic models for hydrogen sorption and their application to the h2-m system
638. Hora, H., Heavy nuclide synthesis by neutrons in astrophysics and by screened protons in host metals
639. Hora, H., Magic numbers and low energy nuclear transmutation by protons in host metals
640. Hora, H., Screening in cold fusion derived from D-D reactions
641. Hora, H., The d and p reactions in low-energy nuclear fusion, transmutation, and fission
642. Horanyi, G., Some basic electrochemistry and the cold nuclear fusion of deuterium
643. Horowitz, C. J., Cold nuclear fusion in metallic hydrogen and normal metals
644. Houari, A., electronic structure and crystal phase stability of palladium hydrides
645. Howald, R. A., Calculations on the Palladium-Lithium System for Cold Fusion
646. Hu, C. C., Effect of pH and anion on hydrogen sorption/desorption at/within oxide-derived Pd electrodes
647. Hu, C-Y., possible role of the gailitis resonance in low energy nuclear fusion experiments
648. Huang, C. Y., Some New Aspects of Super-High Temperature Superconductors
649. Huang, L., in situ scanning transmission electron microscopy observations of fracture at the atomic scale
650. Huang, N., A Flow Calorimeter Used in Duplication of 'Cold Fusion'
651. Hudson, D., background of the orme and s-orme patent application
652. Huggins, R. A., statement before the committee on science, space, and technolgy
653. Hull, M. N., fluctuations of overpotential at metal cathodes and changes in surface concentration of hydrogen atoms
654. Hull, M. N., molecular hydrogen diffusion or hydride component of overpotential at "black" noble metal electrodes
655. Hunter, G. W., a dewar calorimeter for electrochemical studies
656. Hurtak, J. J., cold fusion research: models and potential benefits
657. Huston, E. L., Engineering Properties of Metal Hydrides
658. Hutchinson, D. P., Initial Calorimetry Experiments in the Physics Division -ORNL
659. Ichimaru, S., Cold nuclear fusion in pressurized liquid metals
660. Ichimaru, S., nuclear fusion in dense plasmas
661. Ichimaru, S., Rates of nuclear fusion in metal hydrides
662. Iller, C., Hadronic Circuit Diagrams and the secrets of Cold Nuclear Chemistry
663. Irvine, J. M., Cold fusion doubts and controls
664. Isaeva, L. E., dynamic stablity of palladium hydride: an ab initio study
665. Isenberg, I., the ionization of hydrogen in metals
666. Ivlev, B. I., subatomic mechanism of the oscillatory magnetoresistance in superconductors
667. Ivlev, B., anomalous electron states
668. Ivlev, B., new enhanced tunneling in nuclear processes
669. Ivlev, B., nuclear threads
670. Iyengar, P. K., BARC studies in cold fusion
671. Izumida, T., A search for neutron emission from cold nuclear fusion in a titanium-deuterium system
672. Izuyama, T., Anomalous susceptibility due to paramagnetic impurities
673. J. P. Abid, *a A. W. Wark, a P. F. Brevetb, preparation of silver nanoparticles in solution from a silver salt by laser irradiation
674. Jackson, J. C., Cold fusion results still unexplained
675. Jacobs, J. K., the 50 k transition in palladium hydrogen alloys: ii. specific heat and thermal relaxation?
676. Jain, V.K., energy level calculations of 4h in the cluster model
677. Jaksch, D., Cold Bosonic in Optical Lattices
678. Jamieson, H. C., The b-a Phase Transformation in Palladium-Hydrogen Alloys
679. Jandel, M., Cold Fusion in a Confining Phase of Quantum Electrodynamics
680. Jasinski, R., a new fuel cell anode c a t a l y s t
681. Jaworski, W, Computation of the Electron Density of States in Non-Stoichiometric PdHx by the Recursion Method
682. Jensen, L. C., Beyond fusion, annihilation reactions of confined hydrogen
683. Jewell, L. L., review of absorption and adsorption in the hydrogen-palladium system
684. Jiang, J-Z., in situ formation of dispersed palladium nanoparticles in microemulsions: efficient reaction system for ligand-free heck reaction
685. Jiang, S.-S., Anomalous Neutron Burst Emissions in Deuterium-Loaded Metals: Nuclear Reaction at Normal Temperature
686. Johnson, K. H., Hydrogen-hydrogen/deuterium-deuterium bonding in palladium and the superconducting/electrochemical properties of PdHx/PdDx
687. Johnson, K. H., molecular-orbital basis for superconductivity in high- and low-dimensional metals
688. Johnson, N. J. J., facets and vertices regulate hydrogen uptake and release in palladium nanocrystals
689. Joncich, M. J., The Reaction of Hydrogen and Oxygen on Submerged Platinum Electrode Catalysts. I. Effect of Stirring, Temperarture and Electric Polarization
690. Jones, J. E., Faradaic efficiencies less than 100% during electrolysis of water can account for reports of excess heat in 'cold fusion' cells
691. Jones, S. E., Anomalous Neutron Emission in Metal- Deuterium Systems
692. Jones, S. E., Anomalous nuclear reactions in condensed matter: recent results and open questions
693. Jones, S. E., In Quest of a Trigger Mechanism for Neutron Emissions from Deuterium/Solid Systems
694. Jones, S. E., Muon-Catalysed Fusion Revisited
695. Jones, S. E., Search for Neutron, Gamma, and X-Ray Emissions From Pd/LiOD Electrolytic Cells: A Null Result
696. Jones, S., bibliography
697. Jordan, K. C., Half-Life of Tritium
698. Jorgensen, C. K., Chemistry of Unsaturated Quarks
699. Jorne, J., Neutron and gamma-ray emission from palladium deuteride under supercritical conditions
700. Jorne, J., Neutron emission studies during the electrolysis of deuterium by using BaCeO3 solid electrolyte and palladium electrodes
701. Jorne, J., Unsteady diffusion reaction of electrochemically produced deuterium in palladium rod
702. Josephs, H. C., nuclear processes in palladium deuteride
703. Joulain, K., surface electromagnetic waves thermally excited: radiative heat transfer, coherence properties and casimir forces revisited in the near field
704. Julin, P., Dendritic surface morphology of palladium hydride produced by electrolytic deposition
705. Jung, P., diffusion and clustering of helium in noble metals
706. Jung, Y-G., damage mechanism and deterioration of hydrogen storage ability on pd at hydrogen absorption-desorption multi-cycles
707. Junker, A., cooperative effects in nuclear excitation with coherent x-ray light
708. K lm n, P., loss-mechanism and favourable deuteron concentrations of boson induced nuclear fusion
709. Kadeisvili, J. V., confirmations of santilli s intermediate controlled nuclear fusion of deuterium and carbon into nitrogen without harmful radiations
710. Kaliev, K. A., Reproducible nuclear reactions during interaction of deuterium with oxide tungsten bronze
711. Kalman, P., electron assisted neutron exchange process in solid state environment
712. Kalman, P., forbidden nuclear reactions
713. Kalman, P., laser-assisted nuclear photoeffect reexamined
714. Kalman, P., nuclear processes in solids: basic 2nd-order processes
715. Kalman, P., resonance-like nuclear processes in solids: 3rd and 4th order processes
716. Kamm, G. N., Search for neutrons from a titanium-deuterium system
717. Kandasmy, K., Hydrogen Chemical Potentials and Phase Transitions in Palladium Black Electrodeposits
718. Kapali, V., Comparison of electrochemical behaviour of the Pd-NaOD and Pd-NaOH systems"
719. Karabut, A. B., Cold Fusion Observation at Gas-Discharge Device Cathode
720. Karabut, A. B., impurities in cathode material and possible nuclear reaction mechanisms in glow discharge
721. Karabut, A., generation of heat, long-living atomic levels in the solid medium (1 to 3 kev) and accumulation of nuclear reaction products in a cathode of a glow discharge chamber
722. Kashy, E., Search for neutron emission from deuterium-loaded palladium
723. KASUYA, A., ultra-stable nanoparticles of cdse revealed from mass spectrometry
724. Katz, O.M., permeability and diffusivity of hydrogen through a palladium tube
725. Kaushik, T. C., Preliminary report on direct measurement of tritium in liquid nitrogen treated TiDx chips
726. Kawae, T., superconductivity in palladium hydride systems
727. Kawasaki, A., anomalous deformation of palladium plates by a small gravitational force during hydrogen absorption and desorption
728. Kawasaki, A., deformation of palladium plates by a small stress during hydrogen absorption and desorption
729. Kay, B. D., Kinetics of Hydrogen Absorption by Pd(110)
730. Kay, B. D., Problems with the mass spectrometric determination of tritium from cold fusion
731. Keddam, M., Some comments on the calorimetric aspects of the electrochemical 'cold fusion' by M. Fleischmann and S. Pons
732. Keesing, R. G., Thermal, thermoelectric, and cathode poisoning effects in cold fusion experiments
733. Kelloge, H. H., thermodynamic properties of the oxides of copper and nickel
734. Kemali, M., inelastic neutron scattering measurements and ab initio calculations of hydrogen in single-crystal palladium
735. Kendall, D. L., the role of imagination in science:two modern examples
736. Kennel, E. B., gamma and x-ray measurements in electromagnetically active systems
737. Kenny, J. P., "hyper-gentle" (hgf) fusion at a few ev
738. Kenny, J. P., Electropionics and fusion
739. Kepka, J. B., Analysis of Some Results on Pd-H and Ni-H Systems Studied in High-Pressure-Hydrogen Conditions
740. Kestenbaum, D., Cold Fusion-Science or Religion?
741. Khadeeva, L.Z., discrete breathers in crystals with nacl structure
742. Khajavikhan, M., thresholdless nanoscale coaxial lasers
743. Khan, S. U. M., the redox potential and the fermi level in solution
744. Kidron, A., atomic displacements in palladium/platinium solid solutions
745. Kiguchi, M., formation of the pd atomic chain in hydrogen atmosphere
746. Kim, S-V., synthesis of monodisperse palladium nanoparticles
747. Kim, Y. E., Cluster-Impact Nuclear Fusion: Shock-Wave Statistical Analysis
748. Kim, Y. E., Cluster-Transport Impact Fusion
749. Kim, Y. E., Comment on "Cluster-Impact Fusion"
750. Kim, Y. E., Cross section for cold deuterium-deuterium fusion
751. Kim, Y. E., density-functional theory of bosons in a trap
752. Kim, Y. E., equivalent linear two-body method for bose-einstein condensates in time-dependent harmonic traps
753. Kim, Y. E., Fission-Induced Inertial Confinement Hot Fusion and Cold Fusion with Electrolysis
754. Kim, Y. E., Improved Coulomb Barrier Transmission Coefficient for Nuclear Fusion Cross Sections
755. Kim, Y. E., interacting electrons in quantum dots
756. Kim, Y. E., Neutron burst from a high-voltage discharge between palladium electrodes in D2 gas
757. Kim, Y. E., Neutron-Induced Photonuclear Chain-Reaction Process in Pd Deuteride
758. Kim, Y. E., Nuclear fusion for Bose nuclei confined in ion traps
759. Kim, Y. E., Nuclear Physics Interpretation of Cold Fusion and Optimal Designs for Gas/Solid-State Fusion Device
760. Kim, Y. E., Nuclear Theory Hypotheses for Cold Fusion
761. Kim, Y. E., Optical Theorem And Effective Finite-Range Nuclear Interaction for Low-Energy Nuclear-Fusion Reactions
762. Kim, Y. E., Shock-wave Impact Fusion With Cluster Beams
763. Kim, Y. E., Surface-Reaction Theory of Cold and Warm Fusion
764. Kim, Y. E., The Electron Screening Effect on Fusion Cross-sections and Rates in Physical Processes
765. Kim, Y. E., Theory of Cluster-Impact Fusion with Atomic and Molecular Cluster Beams
766. Kimura, A., Effect of adsorbed surface poisons on the loss of hydrogen from nickel
767. King, M. B., Charge Clusters: The Basis of Zero-Point Energy Inventions
768. Kirchheim, R., Hydrogen in amorphous and nanocrystalline metals
769. Kirchheim, R., hydrogen in metals
770. Kirchheim, R., Interaction of Hydrogen with Dislocations in Palladium- I. Activity and Diffusivity and Their Phenomenological Interpretation
771. Kirchheim, R., Interaction of Hydrogen with Dislocations in Palladium-II Interpretation of Activity Results by Fermi-Dirac Distribution
772. Kishimoto, S., Solution of Hydrogen in Thin Palladium Films
773. Kitamura, A., In situ elastic recoil detection analysis of hydrogen isotopes during deuterium implantation into metals
774. Kitamura, A., Status of cold fusion research in Japan
775. Kleinman, S. L., structure enhancement factor relationships in single gold nanoantennas by surface-enhanced raman excitation spectroscopy
776. Klepacki, D. J., Two-Body Photodisintegration of 3-Helium and 3-Helium Near the Giant Resonance I. Plane-Wave Approximation
777. Klueh, R. L., cold fusion: a proposed mechanism and test procedure
778. Klyuev, V. A., High-energy Processes Accompanying the Fracture of Solids
779. Kneza, M., electrochemical modification of individual nano-objects
780. Kocsis, M., Search for neutrons from cold nuclear fusion
781. Kodak, autoradiography of macroscopic specimens
782. Kojima, H., The variation with temperature of the magnetic susceptibility of some of the transition metals
783. Kolvin, I., atomic imaging of cracks
784. Komarov, V. V., Does Cold Fusion Exist and is it Measurable?
785. Konashi, K., Analysis of heavy-ion-induced deuteron-deuteron fusion in solids
786. Kondo, J., Cold fusion in metals
787. Koonin, S. E., Branching ratios in low-energy deuteron-induced reactions
788. Koonin, S. E., Calculated fusion rates in isotopic hydrogen molecules
789. Koonin, S. E., cold fusion in isotopic hydrogen molecules
790. Koonin, S. E., Enhancement of cold fusion rates by fluctuations
791. Kopecek, R., elerctrolysis of titanium in heavy water
792. Kortus, J., superconductivity of metallic-boron in mgb2
793. Kotarba, A., energy-pooling transitions to doubly excited k atoms at a promoted iron-oxide catalyst surface: more than 30 ev available for reaction
794. Koval'chuk, E. P., Electromagnetic radiation during electrolysis of heavy water
795. Kowalski, L., social aspects of cold fusion: 23 years later
796. Kozima, H., analysis of data obtained in cold fusion experiments producing excess power and helium
797. Kozima, H., Analysis of the First Cold Fusion Experiment on TNCF Model Analysis of Tritium and Neutron Generation in Pd+LiOD/D2O System
798. Kozima, H., another evidence of nuclear transmutation in cold fusion experiments
799. Kozima, H., Excess Heat and Helium Generation in CF Experiments
800. Kozima, H., life time of neutron in cold fusion materials
801. Kozima, H., list of papers from iccf-9
802. Kozima, H., many papers by the author
803. Kozima, H., neutron band in solid; neutron mossbauer effect and the cold fusion phenomenon; unified interpretation of cold fusion phenomenon in tncf model
804. Kozima, H., Neutron drop: condensation of neutrons in metal hydrides and deuterides
805. Kozima, H., On the Elemental Transmutation in Biological and Chemical Systems
806. Kozima, H., Possible explanation of 4He production in a Pd/D2 system by the TNCF model
807. Kozima, H., Tritium and helium measurements by Bockris et al. analyzed on the TNCF Model
808. Kozima, H., unified interpretation and prediction of the cold fusion phenomena in deuterides and hydrides
809. Krapivnyi, N. G., Allowing for finite rate of propagation of hydrogen concentration wave during hydrogen diffusion in metals
810. Krasnoholovets, V., on the nuclear coupling of proton and electron
811. Krause, W., On Palladium-Hydrogen
812. Krauss, A., Low-Energy Fusion Cross Sections of D + D and D + 3He Reactions
813. Kreysa, G., A critical analysis of electrochemical nuclear fusion experiments
814. Krishnankutty, N., the effect of pd precursor and pretreatment on the adsorption and absorption behavior of supported pd catalysts
815. Krishnankutty, N., the effect of pretreatment on pd/c catalysts. i. adsorption and absorption properties
816. Krishnankutty, N., the effect of pretreatment on pd/c catalysts. ii. catalytic behavior
817. Krivit, S., Nuclear phenomena in low-energy nuclear reaction research
818. Kronm ller, low temperature diffusion of hydrogen isotopes and the formation of diatomic complexes in diluted, ni-, fe-, and pd-alloys
819. Krystian, M., formation of superabundant vacancies in nano-pd-h generated by high-pressure torsion
820. KUCH, W., edge atoms do all the work
821. Kuchiev, M.Yu., exponential enhancement of nuclear reactions in condensed matter environment
822. Kuehne, R. W., An extended micro hot fusion model for burst activity in deuterated solids
823. Kuehne, R. W., Response to "Strange behavior of tritiated natural water"
824. Kuji, T., hydrogen absorption of nanocrystalline palladium
825. Kuji, T., Hydrogen Chemical Potentials and Dislocation Structures Following Quenching of Palladium-Hydrogen Alloys into the Two-Phase Envelope
826. Kuji, T., Temperature Dependence of the Chemical Potential of Hydrogen in the Two-phase Coexistence Region of the Palladium-Hydrogen System
827. Kuji, T., the partial excess thermodynamic properties of hydrogen in palladium
828. Kumar, K., Analyses of palladium cathodes used for heavy water electrolysis
829. Kunimatsu, K., Gaseous-Difusion Electrode and Electrochemical Reactor Using the Same
830. Kuzmann, E., Investigation on the possibility of cold nuclear fusion in Fe-Zr amorphous alloy
831. Lacher, J. R., A Theoretical Formula for the Solubility of Hydrogen in Palladium
832. Laeri, F., nanoporous compound materials for optical applications - microlasers and microresonators
833. Lakshmanan, A., electrostatic force of repulsion assists p-p nuclear fusion
834. LALATONNE, Y., van der waals versus dipolar forces controlling mesoscopic organizations of magnetic nanocrystals
835. Lalik, E., chaos in oscillatory heat evolution accompanying the sorption of hydrogen and deuterium in palladium1
836. Lalik, E., oscillatory behavior and anomalous heat evolution in recombination of h2 and o2 on pd-based catalysts
837. Lam, D. J., The magnetic susceptibilities of Pd-Cd, Pd-Sn, and Pt-Cu binary alloys
838. Lam, P. K., Comment on 'Cold fusion: How close can deuterium atoms get inside palladium?'
839. Lamb Jr., W. E., a note on the capture of slow neutrons in homogenous substances
840. Lamb Jr., W. E., capture of neutrons by atoms in a crystal
841. Lamber, R., electron microscopy study of the interaction of ni, pd and pt with carbon ii. interaction of palladium with amorphous carbon
842. Langanke, K., Screening corrections in cold deuterium fusion rates
843. Langmuir, I., Pathological Science
844. Lanzara, A., evidence for ubiquitous strong electron-phonon coupling in high temperature superconductors
845. Lasser, R., Isotope Dependence of Phase Boundaries in the PdH, PdD, and PdT Systems
846. Lasser, R., Solubility of Hydrogen Isotopes in Palladium
847. Lasser, R., Tritium in Pd and Pd0.08Ag0.20
848. Lawson, A. C., Debye-Waller factors of PdDx materials by neutron powder diffraction
849. Lawson, A. C., Strain and particle size of palladium metal powders
850. Leal-Quiros, E., helium-3 generation from the interaction of deuterium plasma inside a hydrogenated lattice: red fusion
851. Leary, W. E., Recent Tests Said To Justify More Cold Fusion Research
852. Lee, A. R., On the feasibility of cold fusion
853. Lee, I., two dimensional dendrites and 3 dimensional growth of electrodeposited platinum nanoparticles
854. Lee, M., Pressure Concentration Isotherms of Thin Films of the Pd-H System as Modified by Film Thickness , Hydrogen Cycling , and Stress
855. Lee, M., Resistivity of Thin Films of the Palladium-Hydrogen System as a Function of Film Thickness
856. Leggett, A. J., Can solid-state effects enhance the cold-fusion rate?
857. Leggett, A. J., Exact upper bounds on barrier penetration probabilities in many-body systems: application to 'cold fusion'
858. Leisure, R. G., Ultrasonic relaxation rates in palladium hydride and palladium deuteride
859. Leng, X., insulator to metal transition in wo3 induced by electrolyte gating
860. Levi, B. G., Doubts Grow as Many Attempts at Cold Fusion Fail
861. Lewenstein, B. V., Cold fusion and hot history
862. Lewenstein, B. V., From Fax to Facts: Communication in the Cold Fusion Saga
863. Lewenstein, B., energy in a jar
864. Lewis, D., A phenomenological study of the Fleischmann-Pons effect
865. Lewis, E., Evidence of micrometre-sized plasmoid emission during electrolysis cold fusion
866. Lewis, E., Reply to "Comments on 'Transmutation in a gold-light water electrolysis system'"
867. Lewis, F. A., Electrolytic Hydrogen Isotope Separation Factors and Efficiency of Exchange Between D2O and Hydrogen (Protium) at Palladium Electrodes
868. Lewis, F. A., Electrolytic Hydrogen Isotope Separation Factors Within Low Voltage Hydrogen Transfer Cells
869. Lewis, F. A., Hydrogen Overpotential and Underpotential at Palladium-Black and Platinum-Black Surfaces
870. Lewis, F. A., Hysteresis of Pressure-Composition and Electrical Resistance-Composition Relationships of Palladium/Hydrogen and Palladium Alloy/Hydrogen Systems
871. Lewis, F. A., Limits of hydrogen contents introduced by electrolysis into palladium and palladium-rich alloys
872. Lewis, F. A., Molecular Hydrogen Diffusion Overpotential and Local Cells Hydrogen Transfer Processes at Electrodes of Palladium , Palladium Alloys and Other Transition Metals , And Implications for Theories of Hydrogen Overpotential
873. Lewis, F. A., The "Uphill" Diffusion of Hydrogen: Strain-Gradient-Induced Effects in Palladium Alloy Membranes
874. Lewis, F. A., The Hydrides of Palladium and Palladium Alloys
875. Lewis, F. A., the hydrides of palladium and palladium alloys, a review of recent researches
876. Lewis, F. A., The Palladium Hydrogen System
877. Lewis, F. A., The Palladium-Hydrogen System
878. Lewis, F.A., platinum and palladium-hydrogen
879. Lewis, N. S., Searches for low-temperature nuclear fusion of deuterium in palladium
880. Li, X. Z., A New Approach Towards Fusion Energy with No Strong Nuclear Radiation
881. Li, X. Z., news from china
882. Li, X. Z., revisit to gamow factor
883. Li, X. Z., Tunneling the Coulomb barrier via lattice confined ions
884. Li, Y., molecular-dynamics simulation of hydrogen diffusion in palladium
885. Liaw, B. Y., Elevated-temperature excess heat production in a Pd + D system
886. Liaw, B. Y., Thin Film Yttria-Stabilized Tetragonal Zirconia
887. Liboff, R. L., Fusion via metallic deuterium
888. Lihn, C. J., The influence of deposits on palladium cathodes in D2O electrolysis
889. Limata, B., first hints on a change of the 22na =decay half-life in the metal pd
890. Lin, G. H., Anomalous radioactivity and unexpected elements as a result of heating inorganic mixtures
891. Lin, T. L., Cold fusion experiment at Department of Nuclear Engineering, National Tsing-Hua University
892. Linford, R. K., Remarks of Rulon K. Linford
893. Lipoglav ek, M., observation of electron emission in the nuclear reaction between protons and deuterons
894. Lipson, A. G., Neutron emission during the mechanical treatment of titanium in the presence of deuterated substances
895. Lisowski, W., Atomic H Desorption from Thin Palladium Hydride Films
896. Little, S. R., calorimetric study of pd/ni beads from the ceti rifex kit
897. Little, S. R., search for evidence of nuclear transmutations in the ceti rifex kit
898. Little, S. R., search for excess in a pd-d2o ultrasonic cavitation system
899. Little, S., dual-method calorimeter
900. Liu, F., Nature of short range interaction between deuterium atoms in palladium
901. Liu, Fu-sui, phonon-induced hopping rate enhancement in the pd-d system
902. Lo, S. Y., Enhancement of nuclear fusion in a strongly coupled cold plasma
903. Loebich, Jr., D., Das Zustandsdiagramm Lithium-Palladium und die Magnetischen Eigenschaften der Li-Pd Legierungen
904. Lohr, L. L., Electronic structure of palladium clusters: implications for cold fusion
905. Longhurst, G. R., An investigation of energy balances in palladium cathode electrolysis experiments
906. Louthan, Jr, M. R., Hydrogen Embrittlement of Metals
907. Lu, X., abnormal heat liberation triggered by current in a d/pd gas-solid system
908. Ludecki, C. M., Thermodynamic Characterization of Metal Hydrogen Systems by Assessment of Phase Diagrams and Electrochemical Measurements
909. Lynch, D. L., calorimetric determination of differential heats of absorption of hydrogen by palladium
910. Lynch, D. L., Spectroscopic studies of surface and subsurface hydrogen/metal systems
911. Lynch, J. F., An investigation of the dynamic equilibrium between chemisorbed and absorbed hydrogen in the palladium/hydrogen system
912. Lynch, J. F., The Formation of Voids in Palladium Metal by the Introduction and Removal of Interstital Hydrogen
913. M.R. Talukder1, a, S. Bose1, M.A.R. Patoary2, A.K.F. Haque2, M.A. Uddin2, A.K. Basak2,, empirical model for electron impact ionization cross sections of neutral atoms
914. Maeland, A. J., X-Ray Diffraction Observations of The Pd-H system Through the Critical Region
915. Mageri, A., interstitial position of hydrogen in metals from entropy of solution
916. Magnouche, A., Hydrogen Dissolution in Palladium: A Resistometric Study Under Pressure
917. Maia, F., special report: crisis at wayne green, inc
918. Makrides, A. C., adsorption of hydrogen by silver-palladium alloys
919. Malakoff, D., DOE to Review Nuclear Grant
920. Malhotra, S. K., Material Balance of Tritium in Electrolysis of Heavy Water
921. Mallove, E. F., mit urgent media advisory
922. Mallove, E., book review of voodo science
923. Mallove, E., cold fusion energy: real and revolutionary
924. Mallove, E., discussion of corras work
925. Mallove, E., preliminary confirmation test of dr. leslie case's catalytic fusion process
926. Mallove, E., the strange birth of the water fuel age: the cold fusion "miracle" was no mistake
927. Maly, J. A., Electron transitions on deep Dirac levels I
928. Maly, J. A., Electron Transitions on Deep Dirac Levels II
929. Mamyrin, B. A., Anomalously High Isotope Ratio in Helium in Technical-Grade Metals and Semiconductors
930. Manchester, F. D., the h-pd (hydrogen-palladium) system
931. Manduchi, C., Anomalous effects during the interaction of subatmospheric D2(H2) with Pd from 900C to room temperature
932. Manduchi, C., Electric-field effects on the neutron emission from Pd deuteride samples
933. Manley, M. E., impact of intrinsic localized modes of atomic motion on materials properties
934. Manuel, A. J., The magnetic susceptibility of palladium and palladium-rhodium alloys from 1.85 to 293 K
935. Manukyan, K. V., nickel oxide reduction by hydrogen: kinetics and structural transformations
936. Maoka, T., Hydrogen Absorption by Palladium Electrode Polarized in Sulfuric Acid Solution Containing Surface Active Substances- I. The Cathodic Region
937. Marcus, H. L., aes examination of cf samples
938. Marion, J. B., A Versatile, High Efficiency 4 pi Neutron Detector
939. Mathews, C. K., On the possibility of nuclear fusion by the electrolysis of heavy water
940. Matschele, T., Hydrogen as a Probe for the Average Thickness of a Grain Boundary
941. Matsui, K., New Hydrogen Energy (NHE) Research Project in Japan
942. Matsumoto, T., artificial ball-lightning. photographs of cold fusion
943. Matsumoto, T., Cold fusion observed with ordinary water
944. Matsumoto, T., Experiments of one-point cold fusion
945. Matsumoto, T., experiments of underwater spark discharge with pinched electrodes
946. Matsumoto, T., extraordinary traces on nuclear emulsions obtained during the matsumae earthquakes in 1996
947. Matsumoto, T., Extraordinary Traces Produced during Pulsed Discharge in Water
948. Matsumoto, T., Interference Phenomena Observed During Cold Fusion
949. Matsumoto, T., Mechanisms of cold fusion: Comprehensive explanations by the Nattoh model
950. Matsumoto, T., Microscopic observations of palladium used for cold fusion
951. Matsumoto, T., 'Nattoh' model for cold fusion
952. Matsumoto, T., Observation of gravity decays of multiple-neutron nuclei during cold fusion
953. Matsumoto, T., Observation of heavy elements produced during explosive cold fusion
954. Matsumoto, T., Observation of meshlike traces on nuclear emulsions during cold fusion
955. Matsumoto, T., Observation of new particles emitted during cold fusion
956. Matsumoto, T., Observation of quad-neutrons and gravity decay during cold fusion
957. Matsumoto, T., Prediction of new particle emission on cold fusion
958. Matsumoto, T., Two Proposals Concerning Cold Fusion
959. Maxelon, M., interaction of hydrogen and deuterium with dislocations in palladium as observed by small angle neutron scattering
960. Mayer, F. J., electromagnetic composites at the compton scale
961. Mayer, F. J., Nuclear energy release in metals
962. Mayer, F. J., On very low energy hydrogenic nuclear reactions
963. Mayer, F. J., superconductivity and low-energy nuclear reactions
964. Mayer, F. J., the d/h ratio and the heating of the early-earth
965. Mayer, F. J., thermal energy generation in the earth
966. Mazzetti, P., Basic Concepts on the Theory of the Magnetic Properties of Solids
967. Mazzolai, F. M., Elastic Energy Dissipation Effects in the Palladium-Hydrogen System
968. McBreen, J., Absorption of electrolytic hydrogen and deuterium by Pd: the effect of cyanide adsorption
969. McCracken, D. R., In search of nuclear fusion in electrolytic cells and in metal/gas systems
970. McCracken, G. M., Experimental search for 'cold fusion' in the deuterium-titanium system
971. McCulloch, M. E., can cold fusion be explained by quantised inertia?
972. McDonald, K. A., Claims of Proponents of Cold Fusion Still Spark Controversy a Year Later
973. McDonald, K. A., Energy Department Panel Remains Unconvinced by New Claims of Room-Temperature Fusion
974. McKee, S. G., Hydrogen Isotope Distribution Equilibria in the Pd/H2-H2O System
975. McKee, S. G., The Establishment of Equilibria in the Pd-H2-D2-H2O-D2O System
976. McKibben, J L., can particles having both fractional electric charge and color charge with 1/r2 force be in existence since the big bang?
977. McKibben, J L., design of a nuclear-powered steam engine or jet for space propulsion
978. McKibben, J. L., evidence for three primordially created particles and can one of them catalyze cold fusion?
979. McKibben, J. L., explanation of low-intensity cold fusion
980. McKibben, J. L., particles as standing waves in a superdense aether
981. McKibben, J. L., passed-over evidence for fractionally-charged particles with associated color change
982. McKibben, J. L., the missed fractionally-charged particles
983. McKubre, M. C. H., An overview of excess heat production in deuterated palladium system
984. McKubre, M. C. H., irreproducibility of the loading/current/time behavior in palladium deuteride; issues and examples
985. McKubre, M. C. H., vuegraphs and tables
986. McNally, J. R., cold fusion prospects
987. McNally, J. R., On the possibility of a nuclear mass-energy resonance in deuterium + deuterium reactions at low energy
988. McNicholl, R-A., some features of p-n and r/ro-n relationships of hydrogen systems of pd alloys with metals in groups 3, 4, and 5
989. McWilliams, R. S., optical properties of fluid hydrogen at the transition to a conducting state
990. Mebrahtu, T., Observations on the surface composition of palladium cathodes after D2O electrolysis in LiOD solutions
991. Meier, J., nano-scale effects in electrochemistry
992. Mengoli, G., Absorption-desorption of deuterium at Pd95%-Rh5% alloy. I: Environment and temperature effects
993. Mengoli, G., Surface and bulk effects in the extraction of hydrogen from highly loaded Pd sheet electrodes
994. Menlove, H. O., Measurement of Neutron Emission From Cylinders Containing Titanium With Pressurized Deuterium Gas
995. Merriman, B., an attempted replication of the ceti cold fusion experiment
996. Miles, M. H., trip report for iccf4
997. Miles, M., Calorimetric principles and problems in measurements of excess power during Pd-D2O electrolysis
998. Miles, M., Electrochemical calorimetric evidence for cold fusion in the palladium-deuterium system
999. Miles, M., Heat and Helium Measurements in Deuterated Palladium
1000. Miles, M., hot topics in cold fusion
1001. Miles, M., palladium-boron alloys and methods making and using such alloys
1002. Miles, M., Production of helium in the cold
1003. Miley, G. H., Book Review: Cold Fusion,The Making of a Scientific Controversy by F. D. Peat
1004. Militzer, B., simulations of dense atomic hydrogen in the wigner crystal phase
1005. Miljanic, S., An attempt to replicate cold fusion claims
1006. Miller, R. J., electronic model for the reverse isotope effect in superconducting pd-h(d)
1007. Miller, R. J., Magnetic Susceptibility of Pd-H and Pd-D at Temperatures Between 6 and 150 K
1008. Mills, R. L., a new atomic theory
1009. Mills, R. L., Comments on 'Interaction of palladium/hydrogen and palladium/deuterium to measure the excess energy per atom for each isotope'
1010. Mills, R. L., Dihydrino molecule identification
1011. Mills, R. L., Novel Hydrogen Compounds from a Potassium Carbonate Electrolytic Cell
1012. Mills, R. L., physical solutions of the nature of the atom, photon, and their interactions to form excited and predicted hydrino states
1013. Mills, R., editorial about "time-resolved hydrino continuum transitions with cutoffs at 22.8 nm and 10.1 nm"
1014. Mills, R., heterogeneous hudrogen-catalyst reactor
1015. Mills, R., novel inorganic hydride
1016. Mills, R., various papers
1017. Milman, P., topologically decoherence-protected qubits with trapped ions
1018. Mintmire, J. W., Chemical forces associated with deuterium confinement in palladium
1019. Miraglia, S., investigation of the vacancy-ordered phases in the pd-h system
1020. Miskelly, G. M., Analysis of the published calorimetric evidence for electrochemical fusion of deuterium in palladium
1021. Mitacek, P., the thermodynamic properties of pure palladium and its alloys with hydrogen between 30 and 300 k
1022. Mitsui, T., dissociative hydrogen adsorption on palladium requires aggregates of three or more vacancies
1023. Mitsuishi, N., Characteristics of the Permeation of Hydrogen-Inlet Gas Mixtures Through a Palladium Alloy Tube Wall
1024. Miyake, M., Absorption and Desorption Behavior of Hydrogen by Neutron Irradiated Titanium
1025. Mizuno, T., Anomalous Heat Evolution from SrCeO3-Type Proton Conductors during Absorption/Desorption in Alternate Electric Field
1026. Moffatt, W. G., pd-li phase diagram
1027. Moffatt, W. G., phase diagram of li-pd and ag-li
1028. Moir, R. W., Application of Muon-Catalyzed Fusion in Metal Hydrides For Isotope Production
1029. Moller, W., saturation and isotope mixing during low-temperature implantations of hydrogen into metals
1030. Moon, D., addendum to mechnism of a disobedient science
1031. Moon, R. J., an electronic analysis of some surfaces by means of slow electrons
1032. Moore, A., The Comportment of Palladium-Hydrogen System Toward Alternating Electric Current
1033. Moore, G. A., The Occlusion and Diffusion of Hydrogen in Metals. A. Metallographic Study of Nickel-Hydrogen
1034. Morgan, J. D., Simple model for accurate calculation of Coulomb-barrier penetration factors in molecular fusion rates
1035. Morrey, J. R., Measurements of helium in electrolyzed palladium
1036. Morrison, D. R. O., cold fusion news no. 21 - one year after
1037. Morrison, D. R. O., cold fusion update #9, iccf-4 review of progress in cold fusion
1038. Morrison, D. R. O., Comments on claims of excess enthalpy by Fleischmann and Pons using simple cells made to boil
1039. Morrison, D. R. O., The Rise And Decline of Cold Fusion
1040. Morrison, D., cold fusion update no, 12
1041. Morrison, D., cold fusion update no. 10
1042. Motta, M., ground-state properties of the hydrogen chain: dimerization, insulator-to-metal transition, and magnetic phases
1043. Motta, M., towards the solution of the many-electron problem in real materials: equation of state of the hydrogen chain with state-of-the-art many-body methods
1044. Mueller, D., Nuclear reactions products that would appear if substantial cold fusion occurred
1045. Muguet, F. F., Ab initio computations of one and two hydrogen or deuterium atoms in the palladium tetrahedral site
1046. Mukhopadhyay, R., Real time deuterium loading investigation in palladium using neutron diffraction
1047. Muller, W., A Note on the 3He+D Nuclear-Reaction Cross Section
1048. Musket, G., Effects of Contamination on the Interaction of H Gas with Pd : A Review
1049. Myers, S. M., Ion-Beam Studies of Hydrogen-Metal Interactions
1050. Myers, S. M., Search for Cold Fusion in Superstoichiometric Palladium Deuteride Using Ion Implantation
1051. Myers, S. M., Superstoichiometry, accelerated diffusion, and nuclear reactions in deuterium-implanted palladium
1052. Nace, D. M., Palladium Hydride. I. The Thermodynamic Properties of Pd2H Between 273 and 345 K
1053. Nace, D. M., Palladium Hydride. III. The Thermodynamic Study of Pd2H Between 15 and 303 K. Evidence for the Tetragonal PdH4 Structure in Palladium Hydride
1054. Nag, N. K., a study on the formation of palladium hydride in a carbon-supported palladium catalyst
1055. Nagasaki, T., Ion-driven Permeation and Surface Recombination Coefficients of Deuterium for Silver
1056. Nagel, D. J., Lattice-enabled nuclear reactions in the nickel and hydrogen gas system
1057. Nager, U., High Precision Calorimetric Apparatus for Studying Electrolysis Reactions
1058. Nakamura, K. ., review of particle physics
1059. Nardi, V., internal structure of electron-beam filaments
1060. Narita, S., gamma-ray detection in dc glow like discharge with deuterated palladium electrode
1061. Nassisi, V., double xecl laser and lateral uv preionization
1062. Nassisi, V., Experimental results of transmutation of elements observed in etched palladium samples by an excimer laser
1063. Nassisi, V., Incandescent Pd and Anomalous Distribution of Elements in Deuterated Samples Processed by an Excimer Laser
1064. Nassisi, V., Transmutation of elements in saturated palladium hydrides by an XeCl excimer laser
1065. Natter, H., Hydrogen in nanocrystalline palladium
1066. Nelin, G., a neutron diffraction study of palladium hydride
1067. Nelin, G., diffusion of hydrogen in the b-phase of pd-h studied by small energy transfer neutron scattering
1068. Nellis, W. J., has metallic hydrogen been made in a diamond anvil cell?
1069. Nicholson, J. P., A search for particle emission from a gas-loaded deuterium-palladium system in the alpha-beta phase
1070. Nimtz, G., A proposal for a lukewarm nuclear fusion
1071. Nishimiya, N., Hyperstoichiometric Hydrogen Occlusion by Palladium Nanoparticles Included in NaY Zeolite
1072. Nissant, M., the plight of the obscure innovator in science
1073. none,
1074. none, a survey of nuclear reactions
1075. none, abstracts
1076. none, agenda for asti workshop on the loading of hydrogen/deuterium in metals, oct. 11-13, 1995
1077. none, attendee's list
1078. none, cold fusion reproduced-on paper
1079. none, cold fusion vs. scientific lynch mob
1080. none, collection
1081. none, collection of articles
1082. none, description of hydro dynamics pump
1083. none, ex-nasa director returning to lead utah's fusion study
1084. none, experiment produces tritium
1085. none, fusion wars spill over to stanford campus; or paradigm lost
1086. none, hungarians say fusion duplicated
1087. none, japanese claim fusion success
1088. none, labs nationwide try to duplicate fusion experiment
1089. none, los alamos lab discovers tritium in duplicating fusion experiment
1090. none, 'New Physics' finds a haven at the patent office
1091. none, npr radio transcript
1092. none, outline and major facilities of nhe laboratory
1093. none, palladium/platinum catalyst preparaton faq
1094. none, papers from jcf
1095. none, patterson power cell: fact or fiction
1096. none, phase diagrams for vd, nbd, yh, and zrh
1097. none, review by eneco
1098. none, symposium on hydrogen in metals
1099. none, the dawn of fusion and just how impossible is all this?
1100. none, the secret life of cold fusion
1101. none, tritium measurement techniques
1102. none, various commentary on cold fusion
1103. none, warm fusion
1104. Noninski, V. C., Comments on 'measurement and analysis of neutron and gamma-ray emission rates, other fusion products, and power in electrochemical cells having palladium cathodes'
1105. Noninski, V. C., On an experimental curiosity that if undetected may lead to erroneous far-reaching conclusions
1106. Norberg, R. E., Nuclear Magnetic Resonance of Hydrogen Absorbed into Palladium Wire
1107. Norberg, R. E., Nuclear magnetic resonance of hydrogen absorbed into palladium wires
1108. Nowicka, E., H2 dissociative adsorption on palladium hydride and titanium hydride surfaces: Evidence for weakly bound state of hydrogen adatoms
1109. Nygren, L. A., Elastic Constants of a'-Phase PdHx Over the Temperature Range 4-300K
1110. Nygren, L. A., Hydrogen hopping rates and hydrogen-hydrogen interactions in PdHx
1111. Oates, W. A., Formation of Nearly Stoichiometric Palladium-Hydrogen Systems
1112. Oates, W. A., the effect of isotopic substitution on the thermodynamic properties of palladium-hydrogen alloys
1113. Oates, W. A., Thermodynamic Properties of Hydrogen in Palladium and its Alloys under Conditions of Constant Volume
1114. Ohashi, H., Decoding of thermal data in Fleischmann & Pons paper
1115. Ohmori, T., Ex situ observation of electrochemically hydrogenated palladium using a scanning tunneling microscope
1116. Ohta, M., analysis of incident neutron energy dependence of fission product yields for 235u by selective channel scission model
1117. Ohtsuki, T., enhanced electron-capture decay rate of 7be encapsulated in c60 cages
1118. Oikawa, K., phase equilibria in ni-rich portion of ni-si system
1119. Oka, Y., Electrochemically induced deuterium-tritium fusion power reactor - preliminary design of a reactor system
1120. Olayo, M. G., Absorption of deuterium in titanium plates induced by electric discharges
1121. Oliphant, M. L., Transmutation Effects Observed with Heavy Hydrogen
1122. Olofson, F., rydberg matter clusters of alkali metal atoms: the link between meteoritic matter, polar mesosphere summer echoes (pmse), sporadic sodium layers, polar mesospheric clouds (pmcs, nlcs), and ion chemistry in the mesosphere
1123. Oppenheimer, J. R., Note on the Transmutation Function for Deuterons
1124. Ortman, M. S., status report on thermodynamic properties of high pressure metal hydrides
1125. Oryu, S., an investigation of the nuclear reaction near the three-body break-up threshold: as a ultra low energy nuclear synthesis
1126. Osono, H., agglomeration of hydrogen-induced vacancies in nickel
1127. Osterwalder, J., Unoccupied Electronic States in Cerium Hydrides
1128. Oudriss, J. Li, A., anisotropy of hydrogen diffusion in nickel single crystals: the effects of self-stress and hydrogen concentration on diffusion
1129. Ozdemir, P., the energy release mechanism of newley-formed alpha bosons in a quantum crystal lattice, (or "why there are no 23.8 mev gamma rays from d+d=4he spin-coherent cold fusion reactions")
1130. P lsson, G. K., examination of the reliability of x-ray techniques for determining hydrogen-induced volume changes
1131. Paneth, F., on the transmutation of hydrogen to helium (german)
1132. Para, A. F., Neutron Monitoring and Related Measurements During Electrolysis of Heavy Water with Palladium and Titanium Cathodes: Activity Report
1133. Parish, T. A., Neutron sources and spectra from cold fusion
1134. Park, R. L., The Cold Fusion Story Has Been an Object Lesson on Why Science Flourishes Only in the Open
1135. Parmenter, R. H., Cold fusion in metals
1136. Parmenter, R. H., Cold fusion in palladium: a more realistic calculation
1137. Parmenter, R. H., More cold fusion in metals: corrected calculations and other considerations
1138. Parmigiani, F., Theoretical considerations on the cold nuclear fusion in condensed matter
1139. Pascasio, Di, pd/h system in h2 plasmas
1140. Passell, T. O., Evidence for Lithium-6 Depletion in Pd Exposed to Gaseous Deuterium and Hydrogen
1141. Patterson, C. W., dynamical symmetry breaking and violation of born-oppenheimer separability in d2+
1142. Patterson, J. A., clean energy technologies, inc
1143. Patterson, J. A., Method for Electrolysis of Water to Form Metal Hydride
1144. Pennisi, E., Helium find thaws the cold fusion trail
1145. Petit, C., Fusion Fever in Utah --State Aches With Pride
1146. Phelps, A.V., comment on "water bath calorimetric study of excess heat generation in resonant transfer plasmas" j. appl. phys. 96, 3095 2004
1147. Philbin, T. G., casimir effect from macroscopic quantum electrodynamics
1148. Phillips, J., evidence of catalytic production of hot atomic hydrogen in rf generated hydrogen/helium plasmas
1149. Phillips, J., water bath calorimetry study of excess heat production in resonant transfer plasmas
1150. Phipps, T. E., Neutron formation by electron penetration of the nucleus
1151. Piantelli, F., energy generation and generator by means of anharmonic stimulated fusion
1152. Picard, C., Thermodynamic Study of the Palladium-Hydrogen System at 245-352 C and at Pressures Up To 34 atm
1153. Pick, M. A., enhancement of hydrogen uptake rates for nb and ta by thin surface overlayers
1154. Pileni, M. P., nanocrystal self-assemblies: fabrication and collective properties
1155. Pippard, B., Footnote to History
1156. Pitt, M. P., tetrahedral occupancy in the pd-d system observed by in situ neutron powder diffraction
1157. Pokropivny, V. V., composite on base of 2d nanotubular lattice as ideal high-tc superconductors
1158. Polfus, J. M., hydrogen induced vacancy clustering and void formation mechanisms at grain boundaries in palladium
1159. Pons, S., some comments on the history of the field
1160. Pool, R., Brookhaven Chemists Find New Fusion Method
1161. Pool, R., Cold Fusion: End of Act 1
1162. Pool, R., Fusion Breakthrough?
1163. Pool, R., Fusion Followup : Confusion Abounds
1164. Pool, R., How Cold Fusion Happened- Twice !
1165. Pool, R., Skepticism Grows Over Cold Fusion
1166. Pool, R., Teller, Chu Boost Cold Fusion
1167. Pool, R., Will New Evidence Support Cold Fusion ? AND Teller,Chu Boost Cold Fusion
1168. Porter, J. D., Limits on electromagnetic and particle emission from palladium-D2O electrolytic cells
1169. Postnikov, V. S., Instability and Superconductivity in Pd-Ag-D and Pd-H Systems
1170. Powell, G. L., Surface and Bulk Effects in the Reaction of H and D with Pd
1171. Powell, G. L., Surface Conductance and Diffusion of H and D in Pd
1172. Powell, G. L., Surface Effects in the Reaction of H and D with Pd-Macroscopic Manifestations
1173. Powell, G. L., The preparation of palladium for cold fusion experiments
1174. Powell, G. L., The Reaction Probability for Exchange of Hydrogen Isotopes on Pd
1175. Poyser, P. A., Deuterium absorption in Pd0.9Y0.1 alloy
1176. Pratt, L. R., Molecular Dynamics of a Dilute Solution of Hydrogen in Palladium
1177. Prelas, M. A., Advanced energy conversion methods for cold fusion
1178. Prelas, M. A., Cold fusion experiments using Maxwellian plasmas and sub-atmospheric deuterium gas
1179. Prelazzi, G., Comparison of H2 adsorption, O2 adsorption, H2 titration, and O2 titration on supported palladium catalysts
1180. Premuda, F., Cold fusion: what's going on? (section editor's title)
1181. Preparata, G., Some theories of 'cold' nuclear fusion: a review
1182. Preparata, G., Towards a Theory of Cold Fusion Phenomena
1183. Press, A., Cold Fusion Experiments Produce Excess Tritium
1184. Press, A., LANL Confirms Cold Fusion Tritium -and- Lab Hasn't Confirmed Cold Fusion
1185. Price, P. B., Search for energetic-charged-particle emission from deuterated Ti and Pd foils
1186. Price, P. B., Search for high-energy ions from fracture of LiD crystals
1187. Pukhov, A., electron acceleration by coherent laser pulse echelons in periodic plasma structures
1188. Putterman, S. J., Sonoluminescence: Sound into light
1189. Qiao, G. S., nuclear transmutation in a gas-loading system
1190. R.P., Thorn Jr.., a quantitative light-isotope measurement system for climate and energy applications
1191. Rabinowitz, M., Do the Laws of Nature and Physics Agree On What is Allowed and Forbidden?
1192. Rabinowitz, M., High temperature superconductivity and cold fusion
1193. Rabinowitz, M., Phenomenological Theory for Short Coherence Length Superconductivity
1194. Rafelski, J., Cold Nuclear Fusion
1195. Rafelski, J., How cold fusion can be catalyzed
1196. Rafelski, J., Limits on Cold Fusion in Condensed Matter: A Parametric Study
1197. Rafelski, J., Nuclear reactions catalyzed by a massive negatively charged particle. How Cold Fusion Can Be Catalyzed
1198. Ragheb, M. S., anomalous deuteron to hydrogen ratio in naturally occuring fission reactors and the possibility of deuteron disintegration
1199. Ragheb, M., On the possibility of deuteron disintegration in electrochemically compressed deuterium ion (D+) in a palladium cathode
1200. Ragland, E., triode cell experiments for controlled fleischmann/pons effect
1201. Rahman, K., phonon spectra of nonstoichiometric palladium hydrides
1202. Raiola, F., electron screening in d(d,p)t for deuterated metals and the periodic table
1203. Raiola, F., enhanced d(d,p)t fusion reaction in metals
1204. Raiola, F., enhanced electron screening in d(d,p)t for deuterated metals
1205. Raiola, F., enhanced electron screening in d(d,p)t for deuterated metals
1206. Rajan, K. G., Electromigration approach to verify cold fusion effects
1207. Ramamurthy, H., Further Studies on Excess Heat Generation in Ni-H2O Electrolytic Cells
1208. Ramkumar, K., a toy model for low energy nuclear fusion
1209. Ramsey, N., thermodynamics and statistical mechanics at negative absolute temperatures
1210. Ransford, H. E., Apparatus for Safely Extending Cold Fusion Investigations to High Temperature, Pressure and Input Power Regimes
1211. Rao, A.M ., diameter-selective raman scattering vibrational modes in carbon nanotubes
1212. Rathke, A., a critical analysis of the hydrino model
1213. Raub, E., ber das verhalten der edelmetalle und ihrer legierungen zu sauerstoff bei hoher temperatur im festen zustand
1214. Ravnitzky, M., this is not cold fusion
1215. Ray, M. K. S., The Fleischmann-Pons phenomenon - a different perspective
1216. Rebeiz, K., tensile properties of a series of palladium-silver alloys exposed to hydrogen
1217. Redey, L., Calorimetric measurements on electrochemical cells with Pd-D cathodes
1218. Rees, L. B., Cold Fusion: What Do We Know? What Do We Think?
1219. Rehm, K. E., Search for protons from the 2H(d,p)3H reaction in an electrolytic cell with palladium-platinum electrodes
1220. Reilly, J. J., iron titanium hydride: its formation, properties, and application
1221. Ren, J., the thirdway of thermal-electric conversion beyond seebeck and pyroelectric effects
1222. Renzler, M., anionic hydrogen cluster ions as a new form of condensed hydrogen
1223. Rice, R. A., Comments on 'Electron transitions on deep Dirac levels I'
1224. Rice, R. A., The role of velocity distribution in cold deuterium-deuterium fusion
1225. Richards, P. M., Molecular-dynamics investigation of deuteron separation in PdD1.1
1226. Riesterer, T., Inverse Photoemission from PdH0.65
1227. Riesterer, T., On the Hydrogen Site Occupation in Hydrides of Intermetallics
1228. Riisager, K., nuclear halo states
1229. Riley, A. M., An in-situ volumetric method for dynamically measuring the absorption of deuterium in palladium during electrolysis
1230. Ritley, K. A., A search for tritium production in electrolytically deuterided palladium
1231. Ritley, K. A., The behavior of electrochemical cell resistance: a possible application to cold fusion experiments
1232. Rittner, E. S., A chemical interpretation of heat generated in 'cold fusion'
1233. Robinson, G. W., could cold fusion be caused by non-maxwell distributions?
1234. Roessler, O. E., Fermi Gas Like Hypothesis for Fleischmann-Pons Experiment
1235. Rogers, V. C., Deuterium concentration and cold fusion rate distributions in palladium
1236. Rogers, V. C., Isotopic hydrogen fusion in metals
1237. Rolison, D. R., Morphological differences between hydrogen-loaded and deuterium-loaded palladium as observed by scanning electron microscopy
1238. Romanowski, S., density functional calculations of the hydrogen adsorption on transition metals and their alloys. an application to catalysis
1239. Rosen, G., Deuterium nuclear fusion at room temperature: a pertinent inequality on barrier penetration
1240. Rossi, G., magic polyicosahedral core-shell clusters
1241. Rotegard, D., Fusion, cold fusion, and space policy
1242. Rotella, F. J., palladium deuteride formation in the cathode of an electrochemical cell: an in situ neutron diffraction study
1243. Roth, J. R., Ball Lightning: What Nature is Trying to Tell the Plasma Research Community
1244. Rothwell, J., CETI's 1 kilowatt cold fusion device denonstrated
1245. Rowe, J. M., isotope effects in the pdh system: lattice dynamics of pdt0.7
1246. Rowe, J. M., lattice dynamics of a single crystal of pdd0.63
1247. Rowe, J. M., neutron quasielastic scattering study of hydrogen diffusion in single crystal of palladium
1248. Roy, L. P., influence of temperature on the electrolytic separation factor of hydrogen isotopes
1249. Rude, L. H., tailoring properties of borohydrides for hydrogen storage: a review
1250. Runbao, L., electron-ion bound state and its introducing of nuclear fusion and solar flare
1251. Runsford, C., business information
1252. RUSPONI, S., the remarkable difference between surface and step atoms in the magnetic anisotropy of two-dimensional nanostructures
1253. Russel, Jr., J. L., low energy nuclear reaction polyplasmon postulate
1254. Russell, J. L., Plausibility argument for a suggested mechanism for cold fusion
1255. Ruzic, D. N., A novel apparatus to investigate the possibility of plasma-assisted cold fusion
1256. Ryan, R. R., exploration of the possibility of fracturing processes of metal deuterides (or tritides) as a mechanism for nuclear fusion
1257. Sada, H., Theory of nuclear reactions in solids
1258. Sadoc, A., the evolution of short-range order in ti-hf-ni alloys with hydrogenation
1259. Sahni, V. C., Comment on 'Cold fusion in condensed matter: is a theoretical description in terms of usual solid state physics possible?'
1260. Sakamoto, Y., nickel-hydrogen system
1261. Sakamoto, Y., Thermodynamic properties for solution of hydrogen in palladium-based binary alloys
1262. Sakamoto, Y., Thermodynamic properties for solutions of hydrogen in Pd-Pt-Rh alloys
1263. Salamon, M. H., Limits on the emission of neutrons, gamma-rays, electrons and protons from Pons/Fleischmann electrolytic cells
1264. Salazar-Alvarez, G., fabrication and properties of self-assembled nanosized magnetic particles
1265. Salomons, E. M., Pressure-Composition Isotherms of Thin Pd-H Films
1266. Salvarezza, R. C., Electrochemical study of hydrogen absorption in polycrystalline palladium
1267. Sanchez, C., Cold Fusion During Electrolysis of Heavy Water With Ti and Pt Electrodes
1268. Sanchez, C., Nuclear products detection during electrolysis of heavy water with titanium and platinum electrodes
1269. Sandersa, P. G., structure of nanocrystalline palladium and copper studied by small angle neutron scattering
1270. Sandquist, G. M., Enhancement of cold fusion reaction rates
1271. Sansores, L. E., lattice dynamics of pddx and pdhx
1272. Santhanam, K. S. V., Electrochemically initiated cold fusion of deuterium
1273. Santilli, R. M., apparent confirmation of don borghi s experiment on the laboratory synthesis of neutrons from protons and electrons
1274. Santilli, R. M., confirmation of don borghi s experiment on the synthesis of neutrons from protons and electrons
1275. Sarac, B., ultrahigh hydrogen-sorbing palladium metallic-glass nanostructures
1276. Sasaki, K., report of my transmutation experiment
1277. Scalia, A., The Nuclear Fusion for the Reactions 2H (d,n) 3He, 2H (d,p) 3H, 3H (d,n) 4 He
1278. Schaffer, M., What is the current scientific thinking on cold fusion?
1279. Schaller, C., Fusion Lecturer Cold To Press
1280. Schaller, C., Scientist Convinced Process is Nuclear
1281. Schaller, C., Scientists Careful in Fusion Finds
1282. Schaller, C., Scientists Seeing Results in Cold Fusion
1283. Schebarchov, D., solid-liquid phase coexistence and structural transitions in palladium clusters
1284. Schenkel, T., investigation of light ion fusion reactions with plasma discharges
1285. Schirber, J. E., Concentration Dependence of the Superconducting Transition Temperature In Pd-H and Pd-D
1286. Schirber, J. E., Lattice Constants of Beta-Pd-Hx and Beta-PdDx with x Near 1.0
1287. Schirber, J. E., Search for cold fusion in high-pressure deuterium-loaded titanium and palladium metal and deuteride
1288. Schlapbach, L., A New XPS/UPS Study of the Electronic Structure of PdH0.6
1289. Schlapbach, L., hydrogen at metallic surfaces and interfaces
1290. Schlapbach, L., Low Temperature Electronic Properties of Cerium Hydrides
1291. Schlapbach, L., Surface Effects and the Formation of Metal Hydrides
1292. Schlapbach, L., Surface Semiconductor-Metal Transition in Rare Earth Hydrides at Low Temperatures
1293. Schlapbach, L., The Composition of the Surface Properties of FeTi and Fe2Ti4Ox in View of the Different Hydrogen Sorption Behaviours
1294. Schmidt, S., Cold Fusion Conundrum
1295. Schneider, J. H., How a rectangular potential in Schroedinger's equation could explain some experimental results on cold nuclear fusion
1296. Schober, T., The Observation of Cylindrical Cavities at Dislocations in Dilute Tritium-Charged Vanadium
1297. Schommers, W., Cold fusion in condensed matter: is a theoretical description in terms of usual solid state physics possible?
1298. Schrieder, G., Search for cold nuclear fusion in palladium-deuterium
1299. Schuldiner, S., Electrochemical Behavior of the Palladium-Hydrogen System. I. Potential-Determining Mechanisms
1300. Schultze, J. W., Prospects and problems of electrochemically induced cold nuclear fusion
1301. Schwarz, R.B., coherent phase decomposition in the pd-h system
1302. Scott, C. D., Preliminary Investigation of Possible Low-Temperature Fusion
1303. Searson, P. C., Hydrogen evolution and entry in palladium at high current density
1304. Seeliger, D., A simple plasma model for the description of d-d fusion in condensed matter
1305. Seeliger, D., Search for DD-fusion neutrons during heavy water electrolysis
1306. Segre, S. E., A mechanism for neutron emission from deuterium trapped in metals
1307. Segre, S. E., A Search for Neutron Emission from Deuterated Palladium
1308. SEIFERT, G., nanocluster magic
1309. Seitchie, J. A., Knight shifts and susceptibilities of transition metals: Palladium
1310. Semiletov, S. A., Electron-Diffraction Investigation of Tetragonal PdH
1311. Seo, M., Piezelectric response to surface stress change of a palladium electrode in sulfate aqueous solutions
1312. Service, A. W., New Tomorrow Dawns As LANL Confirms Cold Fusion
1313. Setayandeh, S., first-principles study of the atomic volume of hydrogen in palladium
1314. Sevilla, J., Some characteristics of titanium and palladium samples used in cold fusion experiments
1315. Seymour, E. F. W., nmr measurement of hydrogen diffusion in b-palladium hydride
1316. Shackelford, J. F., diffusion of metals into metals
1317. Sham, L. J., the electron-phonon interaction
1318. Shanahan, K., a systematic error in mass flow calorimetery demonstrated
1319. Shani, G., Evidence for a background neutron enhanced fusion in deuterium absorbed palladium
1320. Shankland, S., Storms: Interest in cold fusion resurging
1321. Shapira, D., comments on reported nuclear emission during acoustic cavaition
1322. Shaw, G. L., Scenario for cold fusion by free quark catalysis
1323. Sherbo, R. S., accurate coulometric quantification of hydrogen absorption in palladium nanoparticles and thin films
1324. Sherfey, J. M., Electrochemical Calorimetry
1325. Shizuku, Y., phase diagram of the ni-h system at high hydrogen pressures
1326. Shohoji, N., Unique features of hydrogen in palladium metal lattice: hints for discussing the possible occurrence of cold nuclear fusion
1327. Shoulders, K. R., Charge clusters in action
1328. Shoulders, K. R., Observations on the role of charge clusters in nuclear cluster reactions
1329. Shoulders, K. R., Permittivity Transitions
1330. Shoulders, K., permitivity transitions
1331. Shukla, P. K., clustering of ions at atomic dimensions in quantum plasmas
1332. Shyam, A., Strange behavior of tritiated natural water
1333. Shytov, A. V., atomic collapse and quasi-rydberg states in graphene
1334. Siegmann, H. C., Self-restoring of the active surface in the hydrogen sponge LaNi5
1335. Silvera, I. F., Deuterated palladium at temperatures from 4.3 to 400K and pressures to 105 kbar: search for cold fusion
1336. Simakin, A.V., accelerated alpha decay of 232 u isotope achieved by exposure of its aqueous solution with gold nanoparticles to laser radiation
1337. Simakin, A.V., initiation of nuclear reactions under laser irradiation of au nanoparticles in the aqueous solution of uranium salt
1338. Simanek, E., Quantum tunnelling through a fluctuating barrier. Enhancement of cold-fusion rate
1339. Simons, J. K., Absorption Isotherms of H in the Alpha-Phase of the H-Pd System
1340. Simons, J. W., Effects of the Electronic Band Shape of Palladium Metal on the Proton Model for Hydrogen Absorption
1341. Singh, S., deuterium isotope effects on hydrogen bonding
1342. Sinha, A., Model of low energy nuclear reactions in a solid matrix with defects
1343. Sioda, R., Cavity in Metal (Hohlraum) Limited-Radiation Effect Law
1344. Skerrett, P. J., Cold Fusion at Texas A&M: Problems, but No Fraud
1345. Smith, D. P., Note on the Arrangement of Phases in Pd-H
1346. Smith, D. P., The Occlusion and Diffusion of Hydrogen in Metals. A. Metallographic Study of Palladium-Hydrogen
1347. Smith, F.D. Jr, pd/ni clusters for d/h tsc jitterbug fusion
1348. Smith, P. J., electrolytic co-deposition neutron production measured by bubble detectors
1349. Snoke, D. W., evidence for bose-einstein condensation of excitons in cu2o
1350. Sona, P. G., Preliminary tests on tritium and neutrons in cold nuclear fusion within palladium cathodes
1351. Sona, P. G., The possible negative influence of dissolved O2 in cold nuclear fusion experiments
1352. Song-Sheng, J., anomalously high isotope ratio 3he/4he and tritium in deuterium-loaded metal: evidence for nuclear reaction in metal hydrides at low temperature
1353. Soriaga, M. P., Surface Electrochemical Studies of Pd in Alkaline D2O Solutions
1354. Soskiewicz, T., superconductivity in the palladium-hydrogen and palladium-nickel-hydrogen systems
1355. Spinrad, B. I., On cold fusion
1356. Srinivasan, M., Introduction to isotopic shifts and transmutations observed in LENR experiments
1357. Srivastava, Y. N., a primer for electro-weak induced low energy nuclear reactions
1358. Stacey Jr., W. M., Reactor prospects of muon-catalyzed fusion of deuterium and tritium concentrated in transition metals
1359. Stachurski, J., A New Phase in the Pd-C System Formed During the Catalytic Hydrogenation of Acetylene
1360. Steinert, C., Laser-induced 'semicold' fusion
1361. Stiff, D., Theories on Cold Fusion Abound
1362. Stilwell, D. E., Electrochemical Calorimetric Studies on the Electrolysis of Water and Heavy Water (D2O)
1363. Stoppini, G., Coulomb screening in superconducting PdH
1364. Storms, E. K., a critical evaluation of the pons-fleischmann effect: part 1 and part 2
1365. Storms, E. K., a theory of lenr based on crack formation
1366. Storms, E. K., cold fusion: theory and practice in japan
1367. Storms, E. K., efforts to explain low-energy nuclear reactions
1368. Storms, E. K., electrolytic charging of palladium with deuterium to high stoichiometry
1369. Storms, E. K., letter to science
1370. Storms, E. K., reaction of pd with d
1371. Storms, E. K., walt polansky briefing
1372. Storms, E. K., where do we stand on cold fusion?
1373. Storms, E., Chemically-Assisted Nuclear Reactions
1374. Storms, E., Cold fusion, a challenge to modern science
1375. Storms, E., Cold Fusion: From reasons to doubt to reasons to believe
1376. Storms, E., Methods Required for the Production of Excess Energy Using the Electrolysis of Palladium in D2O-Based Electrolyte
1377. Storms, E., The Status of "Cold Fusion"
1378. Storms, E., Ways to Initiate a Nuclear Reaction in Solid Environments
1379. Strackan, J. S., Thermoelectric Energy Conversion
1380. Strilets, I. A., motion characteristics of single electrons of atoms of atomic gas of hydrogen and single electrons of hydrogen-like ions in form gas or vapour during decays of such atoms and ions. emission line spectra
1381. Stringham, R., Anomalous heat production by cavitation
1382. Stringham, R., cavitation induced micro-fusion solid state production of heat, 3he, and 4he
1383. Stringham, R., first gate energies
1384. Stringham, R., the 4he and excess heat production via cavitation
1385. Stritzker, B., Superconductivity in Metastable Pd-Alloys Produced by Ion Implantation at Low Temperatures
1386. Stulen, R. H., Summary Abstract: Observation of Molecular H2 and D2 on Pd and Ag Using Thermal Desorption Between 5 and 20 K
1387. Sun, Y., template-engaged replacement reaction: a one-step approach to the large-scale synthesis of metal nanostructures with hollow interiors
1388. Sun, Z., Cold fusion: how close can deuterium atoms come inside palladium?
1389. Sundqvist, B. U. R., On the observation of charged particles in cold fusion
1390. Svetlana Yu. Zaginaichenko a, *, Zinaida A. Matysina b, Dmitry V. Schur a,, the structural vacancies in palladium hydride. phase diagram
1391. Switendick, A. C., Electronic structure and stability of palladium hydrogen (deuterium) systems, PdH(D)n, 1*n*3
1392. Szalewicz, K., Fusion rates for hydrogen isotopic molecules of relevance for 'cold fusion'
1393. Tabet, E., A dynamical model for cold fusion in deuterated palladium
1394. Tabet, E., Nuclear reactions from lattice collapse in a cold fusion model
1395. Tajima, T., Influence of attractive interaction between deuterons in Pd on nuclear fusion
1396. Takagi, R., Neutron Emission During a Long-Term Electrolysis of Heavy Water
1397. Takaharu, G., Apparatus for cold nuclear fusion
1398. Takeda, T., Fractofusion mechanism
1399. Taleyarkhan, R. P., Evidence for Nuclear Emissions During Acoustic Cavation
1400. Talley, T. L., importance of tritium experiments
1401. Tarun C. Narayan1, *, Fariah Hayee2,*, Andrea Baldi1,3,*, Ai Leen Koh4, Robert Sinclair1, direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles
1402. Taubes, G., Cold Fusion Conundrum at Texas A & M
1403. Tavares, S., evidence for a superstructure in hydrogen-implanted palladium
1404. Tavares, S.S.M., x-ray diffraction and scanning electron microscopic characterization of electrolytically hydrogenated nickel and palladium
1405. Tawara, H., cross sections related data for electron collisions with hydrogen molecules and molecular ions
1406. Taylor, S. F., Search for Neutrons from Deuterated Palladium Subject to High Electric Currents
1407. Ter-Akopian, G. M., hydrogen-4 and hydrogen-5 from t+t and t+d transfer reactions studied with a 57.5-mev triton beam
1408. Terazawa, H., Are Super-Hypernuclei Found in Cosmic Rays?
1409. Terez, E.I., fusion reactions as the main source of the earth s internal energy
1410. Thayer, G. E., shape and stability of self-assembled surface domains
1411. Thomas, G. J., helium bubbles in palladium tritide
1412. Thomassen, K. L., Remarks by Keith I. Thomassen
1413. Thompkins, P., The Secret Life of Plants
1414. Thompson, A. W., Hydrogen Compatibility of Dispersion-Strengthened Alloys
1415. Tien, J. K., Hydrogen Transport by Dislocations
1416. Tilley, D. R., energy levels of light nuclei, a = 4
1417. Tkacz, M., enthalpies of formation and decomposition of nickel hydride and nickel deuteride derived from (p, c, t) relationships
1418. Tomanek, D., Ab initio Calculation of Chemisorption Systems: H on Pd(001) and Pd(110)
1419. Tomellini, M., On the possibility for local oversaturation of deuterium in palladium
1420. Tonga, H. D., preparation of palladium-silver alloy films by a dual-sputtering techniqueand its application in hydrogen separation membrane
1421. Trinkle, D.R., nanoscale-hydride formation at dislocations in palladium: ab initio theory and incoherent inelastic neutron scattering measurements
1422. Tripodi, P., a review of high temperature superrconducting property of pdh system
1423. Tripodi, P., Temperature coefficient of resistivity at compositions approaching PdH
1424. Trower, W. P., Cold Fusion As Seen With X-Ray Vision
1425. Tsarev, V. A., Cold fusion
1426. Tsarev, V. A., Current Status of Cold Fusion
1427. Tsuchida, T., Role of hydrogen atoms in palladium
1428. Tsyganov, E. N., Cold Nuclear Fusion
1429. Tsyganov, E. N., Registration of energy discharge in D + D -> 4He* reaction in conducting crystals (simulation of experiment)
1430. Tuggle, D. G., Solid State Fusion Update
1431. Tuggle, D. G., Tritium Evolution from Various Morphologies of Palladium
1432. Turanciol, F., cold fusion is confirmed
1433. Turner, L., Thoughts Unbottled by Cold Fusion
1434. Tyurin, Yu. I., non-equilibrium release of atomic hydrogen from metals under irradiation
1435. Uchida, H., Effect of Palladium and Oxygen Layers on the Hydrogen Absorption Rate of Tantalum Films at 300 K
1436. Udovic, T. J., Vibrational dynamics of hydrogen and deuterium in crystalline Pd9Si2
1437. Uhm, H. S., High concentration of deuterium in palladium
1438. V. B. Belyaev, V. B., nuclear fusion induced by x rays in a crystal
1439. Vaidya, S. N., Deuteron screening, nuclear reactions in solids, and superconductivity
1440. Vaidya, S. N., On the possibility of coherent deuteron-deuteron fusion in a crystalline Pd-D lattice
1441. Vaidya, S. N., Theory of screening-enhanced D-D fusion in metals
1442. Van der Merwe, P. T., Enhanced fusion induced by affiliated muons
1443. Van Siclen, C. D., Piezonuclear fusion in isotopic hydrogen molecules
1444. Van Swaay, M., Permeability and diffusion of hydrogen through palladium
1445. Van Vucht, J. H. N., Note on the Occurrence of Intermetallic Compounds in the Lithium-Palladium System
1446. Vaselli, M., Screening effect of impurities in metals: a possible explanation of the process of cold nuclear fusion
1447. Va'vra, J., a new way to explain the 511 kev signal from the center of the galaxy and some dark matter experiments
1448. Vekilova, O. Yu., first-principles study of vacancy-hydrogen interaction in pd
1449. Velev, O. A., Heat flow calorimeter with a personal-computer-based data acquisition system
1450. Velikovich, A., z-pinch plasma neutron sources
1451. Verbruggen, A. H., Gorsky Effect in Concentrated a-PdHx
1452. Verbruggen, A. H., hall voltage induced by hydrogen diffusion in palladium
1453. Veziroglu, T. N., Mossbauer Study of the Local Hydrogen Distribution Near Substitutional Impurities in b-PdHx
1454. Victoreen, J. A., the calculation of x-ray mass absorption coefficients
1455. Vielstich, W., Search for neutrons from controlled deuterium concentrations in palladium
1456. Vijh, A. K., Electrocatalysis of the Hydrogen Evolution Reaction by Metals and Silver-Palladium Alloys in Relation to Their Electronic Configuration
1457. Violante, V., Lattice ion trap: a possible mechanism inducing a strong approach between two deuterons in condensed matter
1458. Violante, V., Lattice ion-trap confinement for deuterons and protons: Possible interaction in condensed matter
1459. Visintin, A., electrochemical activation and electrocatalytic enhancement of a hydride-forming metal alloy modified with palladium, platinum and nickel
1460. Viteau, M., rydberg excitation of a bose-einstein condensate
1461. Von Buttlar, H., Deuterium und tritumtrennfaktoren bei der elektrolytischen wasserstoffabscheidung
1462. Vysotskii, V. I., correlated states and transparency of a barrier for low energy particles at monotonic deformation of a potential well with dissipation and a stochastic force
1463. Vysotskii, V., Microbial transmutation of Cs-137 and LENR in growing biological systems
1464. Vysotskiia, V. I., coherent correlated states and low-energy nuclear reactions in non stationary systems
1465. Waber, J. T., the ogg-schafroth theory of high temperature superconductivity and its relation to cold fusion
1466. Wagner, J. E., A Calorimetric Study of the Palladium Hydride and Deuteride Systems ( A Preliminary Report)
1467. Waisman, J. L., Excess Heat; The Microprinciples
1468. Walling, C., Two innocent chemists look at cold fusion
1469. Walters, R. T., Two Plateaux for Palladium Hydride and the Effect of Helium from Tritium Decay on the Desorption Plateau Pressure for Palladium Tritide
1470. Wang, J., planar clusters of rydberg matter kn (n=7, 14, 19, 37, 61) detected by multiphoton fragmentation time-of flight mass spectrometry
1471. Wang, T., Investigating the Unknown Nuclear Reaction in a Low-Energy (E<300 keV) p + T2Hx Experiment
1472. Wang, X. W., Hydrogen interactions in PdHn (1 <= n <= 4)
1473. Wang, Y., observing atomic collapse resonances in artificial nuclei on graphene
1474. Weber, M.J., atomic layer deposition of high-purity palladium films from pd(hfac)2 and h2 and o2 plasmas
1475. Weber, S. E., Theory of hydrogen pairing in metals
1476. Wei, S. H., Instability of diatomic deuterium in fcc palladium
1477. Weidner, A., overstraining effects on the crack-opening displacement of microstructurally short cracks
1478. Wen, X-W., torsion field effect and zero-point energy in electrical discharge systems
1479. Wenzl, H., properties and applications of metal hydrides in energy conversion systems
1480. Werjefelt, B., Energy From Magnetic Materials/Magnetic Fields
1481. Werle, H., Trials to induce neutron emission from a titanium-deuterium system
1482. Werth, J., Experimental Investigations into the Pons-Fleischmann Effect
1483. Whaley, K. B., Boson enhancement of finite-temperature coherent dynamics for deuterium in metals
1484. Wheeler, J.M., nanoindentation of palladium-hydrogen
1485. White, C, storms issues a cold fusion challenge
1486. Wicke, E., hydrogen in palladium and palladium alloys
1487. Widom, A., absorption of nuclear gamma radiation by heavy electrons on metallic hydride surfaces
1488. Widom, A., analysis of an attempt at detection of neutrons produced in a plasma discharge electrolytic cell
1489. Widom, A., biological nuclear transmutations as a source of biophotons
1490. Widom, A., energetic electrons and nuclear transmutations in exploding wires
1491. Widom, A., erroneous wave functions of ciuchi et al. for collective modes in neutron production on metallic hydride cathodes
1492. Widom, A., neutron production from the fracture of piezoelectric rocks
1493. Widom, A., nuclear abundances in metallic hydride electrodes of electrolytic chemical cells
1494. Widom, A., photo-disintegration of the iron nucleus in fractured magnetite rocks with magnetostriction
1495. Widom, A., theoretical standard model rates of proton to neutron conversions near metallic hydride surfaces
1496. Widom, A., Ultra low momentum neutron catalyzed nuclear reactions on metallic hydride surfaces
1497. Wiersig, J., hexagonal dielectric resonators and microcrystal lasers
1498. Wiesmann, H., Examination of cathodically charged palladium electrodes for excess heat, neutron emission, or tritium production
1499. Wigner, E., on the possibility of a metallic modification of hydrogen
1500. Wiley, W., Utah scientists research cold fusion in France
1501. Williams, D. E. G., Upper bounds on 'cold fusion' in electrolytic cells
1502. Williamson, G., see wayne run. run, wayne, run
1503. WILLIAMSON, M. J., dynamic microscopy of nanoscale cluster growth at the solid-liquid interface
1504. Willis, H. E., a special case of the theory of contropy
1505. Wipf, H., On Permeation Techniques for Electrotransport Studies on Metal-Hydrogen Systems
1506. Wise, E. M., palladium and palladium alloys
1507. Wisniewski, R., Hall Effect in the Pd-H System
1508. Witherspoon, M. C., The Steady-State Hydrogen Content of Catalytically Active Noble Metal Cathodes During Hydrogen Bubble Evolution at High Current Densities
1509. Witherspoon, T. C., Absorption of Hydrogen by Palladium/Rhodium Alloys and the Possible Existence of b-Phase Rhodium Hydride
1510. Witze, A., graphene's two dimensions offer new physics, novel electronics
1511. Wolf, K. L., Neutron emission and the tritium content associated with deuterium-loaded palladium and titanium metals
1512. Wolfer, W. G., The Elastic Properties of Aged Tritides
1513. Worledge, D. H., trip report on dubna cold fusion conference
1514. Worsham, J. E., Neutron-Diffraction Observations on the Palladium-hydrogen and Palladium-deuterium systems
1515. Wulff, H., formation of palladium hydrides in low temperature ar/h2-plasma
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