Low Temperature Physics 46, 1030 (2020) - Published Online: 21 October 2020:
Low-temperature sorption of hydrogen by porous carbon material containing palladium nanoclusters
Low Temperature Physics 46, 1030 (2020) - Published Online: 21 October 2020:
Low-temperature sorption of hydrogen by porous carbon material containing palladium nanoclusters
COHERENT AND SEMI-COHERENT NEUTRON TRANSFER REACTIONS
Peter Hagelstein 1992
US20200321624 EXOTHERMICALLY RESPONSIVE CATHODES AND METHODS OF PRODUCTION THEREOF
Dennis Cravens / Industrial Heat LLC 08.10.2020
PHONON-MEDIATED OFF-RESONANT NEUTRON TRANSFER
Peter Hagelstein / Industrial Heat LLC 01.10.2020
Unknown counts in y-axis ... the scoundrels-axis, we know it
The first ring of the patents chain [2002]: from antigravity to neutron, as suspected
Enjoy affidavit
Neutron via SU(3) brane, sulfuric acid and magnet
SUMMARY OF THE INVENTION
Subjecting sulfuric acid in a magnetic field, primarily 0.2 T, to extremely low frequency radio waves was found in one embodiment could lead to neutrons due to electron captures and consequently isotopes by neutron captures. The room temperature process, i.e. operating the invention in a room without the need to adjust the temperature of the room or the apparatus for the process, is innovative since neutrons are typically only sourced from nuclear disintegrations and reactions or specific high-energy reactions, e.g. accelerator collisions. Standard Mo powder (Fisher subsieve 4.3 um), non-enriched, was mixed in the acid (always 20 mL), and 141 keV readings corresponding to Tc-99m were detected in samples removed from the apparatus. The Fisher subsieve size was reduced (average microns ≈1.52 (as supplied)) resulting in greater counts for Tc-99m with a NaI scintillator detector.
The invention can easily be made and used by placing a tube or holding vessel, in one embodiment a neutron reflective graphite tube, in a moderately strong magnetic field, in one embodiment 2000 Gauss, and placing a particle source in the tube, in one embodiment 20.mL sulfuric acid. Alligator clips can be attached to the graphite tube, in one embodiment three alligator clips attached to the top of the graphite tube equally separated, with the clips being part of wires from a frequency source, in one embodiment a function generator, to provide low electromagnetic energy to the particle source through the alligator clips, in one embodiment 2 Hz at an amplitude (V p-p) of approximately 4.312-4.375V. Isotope production occurs when the user of the set-up inserts powder of an initial isotope in the particle source, in one embodiment Mo, and turns on the low electromagnetic energy source, the function generator, which will permit the generation of particles and of isotopes higher on the periodic table than Mo, in one embodiment Tc-99m. Particles and isotopes can also be produced from the particle source without the insertion of an additional isotope as for example Mo.
High-temperature high-pressure calorimeter for studying gram-scale heterogeneous chemical reactions
Received 22 April 2017; published online 22 August 2017
April 2017 - September 2020, a long shot
Sulfuric Acid Electrolyte Impacts Palladium Chemistry at Reductive Potentials
Received: March 20, 2020; revised: September 24, 2020; in print
Wrong equipment >>> no or low yields
Sputtering
Disclosure of Invention
A distinctive feature of experiments which have been carried out by a group from Institute of High-Temperature Electrochemistry and Ural Polytechnical Institute (Ekaterinburg, Russia) and comprising at least one inventor of the instant invention is the utilization of oxidized sodium-tungsten bronze NaxWo3. The results of the experiments are reported in an article by K. Kaliev et al. entitled "In Frontiers of Cold Fusion", 1993, Universal Academy Press, Inc., p.241-244; and by K.A. Kaliev, A.N.Baraboshkin, A.L.Samgin et al. in Physics Letters A172 (1993), p.199-202.
Various degrees of tungsten valence states in bronze, rigidity of tungsten-oxygen octahedral frame and high mobility of the alkaline metal ions allow production of specific structures with extensive channels and ionic conductivity. In one series of experiments, bronze monocrystals of 8 to 12 mm size were placed in a vacuum chamber (10-5 to 10-6 torr) and subjected to heating in the presence of electric field. The monocrystals were cooled down to the room temperature and the chamber was filled with deuterium. Consistently, neutron- and gamma-radiation was recorded in excess of background quantities, amounting to a few hundred neutrons per minute. Such experiments demonstrated qualitative reproducibility of neutron signals.
Such experiments demonstrated the possibility of achieving nuclear reactions involving deuterium in solids, in particular in solid electrolytes with cation-electronic conductivity. Monocrystals of oxide tungsten bronze were used in such electrolytes to produce structures that determine the directions of deuterium ions movement.
A) Reproducible nuclear reactions during interaction of deuterium with oxide tungsten bronze [1993]
B) Sodium tungsten bronzes as plasmonic materials [2014]
"The addition of Na into the lattice increases the free electron density, increasing the bulk plasma frequency. Nanoparticle plasmon resonances are found to be highly tunable, and generally at a lower frequency than Au or Ag"
Nano-columnar
At the beginning [1989] Soviet reseachers tried sodium-tungsten columnar bronzes
Anisotropy of yields in Pd+D
ORDERED ARRAYS OF CARBON NANOTUBES