No Sweden Industrial executive
Ahlfors
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- Member since May 6th 2017
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Posts by Ahlfors
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English Translation Korean Room Temperature Superconductor Paper - Technomancers.aiJournal of the Korean Crystal Growth and Crystal Technology Vol. 33, No. 2 (2023) 61-70 https://doi.org/10.6111/JKCGCT.2023.33.2.061 p-ISSN 1225-1429 e-ISSN…technomancers.ai
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An In-Lattice Confinement Fusion Reactor(LCFR) is conceptually based on recombination of the charac-
teristic or functional elements of;1)Cold Fusion, 2) Plasma Fusion(MCF&ICF), 3) Fission Reactor, and
4) D-T(D) Neutron Source
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"We are seeking highly motivated, self-driven individuals to join a sub-group that studies nuclear fusion at low energy in solid-state materials. This fusion sub-group specializes in the development of benchtop plasma fusion systems and materials that enable expansive studies in underexplored energy regimes for nuclear fusion. This research builds upon foundational work summarized in a 2019 Nature Perspective article entitled “Revisiting the Cold Case of Cold Fusion” (https://www.nature.com/articles/s41586-019-1256-6#Ack1).
Our fusion sub-group is currently exploring lattice confinement fusion (LCF), i.e. nuclear fusion within the confines of a solid, such as Pd metal. We aim to quantify how fusion reaction cross sections are affected by perturbations to the chemical and nuclear environment of the reaction feedstock. We are in the process of developing an experimental platform to generate precise, accurate, and repeatable data sets at incident particle energies between 0-50 keV. The experimental investigation of fusion processes in this largely unexplored research field will require the development of new measurement instrumentation and cutting-edge analysis techniques in order to inform the development of fundamental scientific theory."
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Industrial Heat, Britton branch
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Quantum Nonlocality - Possible Cosmophysical Effects
Search of x-ray solar activity correlations with 55Fe, 60Co nucleus decay rates
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Towards higher energy density processes in sonoluminescing bubblesA bubble in a standing sound wave in water pulsates with such power that, as its minimum radius is approached, the interior undergoes a first order phase transipubs.aip.org
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METHOD AND SYSTEM FOR USING QUANTUM INCOMPRESSIBLE FLUID TO ACHIEVE FUSION FROM CAVITATION
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH
This invention was made with government support under Grant Number HQ0034-20-1-0034, awarded by U.S. Department of Defense, Defense Advanced Research Projects Agency. The government has certain rights in the invention.
BACKGROUND OF THE INVENTION
Despite the enormous interest in reaching controlled thermonuclear fusion as a source of 10 limitless energy, there exists no laboratory scale thermal fusion device. Even for efficiencies Q«1 a single laboratory scale thermal fusion instrument would be transformational. Such a device would become an experimental test bed for a spectrum of innovative ideas aimed at improving Q and understanding this process under wide ranging conditions.
BRIEF SUMMARY OF THE INVENTION
Disclosed herein is a system for generating neutrons with thermal fusion, composition for use in the same, and method of using the same. The system comprises a crucible, the crucible having a quantum incompressible fluid and a gas bubble therein, a piston having an end submerged within the quantum incompressible fluid, and a controller coupled to the piston configured to drive the piston to generate an acoustic resonance in the quantum incompressible fluid.
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Electron screening in palladium
Signatures of 1.5 MeV leptons in nuclear reactions
Quantum Engineering for Energy Applications
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See abstract of
is the reference paper cited in acsanm.3c00141
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"Furthermore, we find that the plasma treatment both alters the surface structure of the Pd nanoparticles at the atomic level and leads to surface contamination by so-called H2 plasma swift chemical sputtering of Al, Si and F species present in the plasma chamber, which in combination significantly reduce hydrogen sorption rates and increase apparent activation energies, as revealed by plasmonic hydrogen sorption kinetic measurements."
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Plasma Cleaning of Cationic Surfactants from Pd Nanoparticle Surfaces: Implications for Hydrogen Sorption
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"In 2004, the Piantelli group [50] surveyed the energy distribution of scattered photons from an experiment done in the Ni-H medium (see the right side of Fig. 2). Noting that there are circumstances for LENR in the Ni-H medium, one can expect the existence of gamma rays. However, this figure shows that the gamma radiation exists in the region below 1 MeV. Namely, despite the expectation that there is some gamma-ray radiation, gamma-ray radiation has not been detected. This is one of the interesting properties of LENR physics, which occurs mostly near metal hydride surfaces. Similar results were observed in [51]. The results of our calculations Eq. (32) on the gamma scattering of heavy electrons, as can be seen in Fig. 2, are in relative agreement with these observations. In other words, according to our calculations, the energy distribution of scattered photons from heavy electrons is in the region below 1 MeV."
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The role of superabundant vacancy delta to delta prime transformation in stopping Fleischmann-Pons heat effect in palladium-deuterium
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FS & IBT - Low energy nuclear reactionThe project will focus on quantifying nuclear reactions, such as the deuterium-deuterium fusion reaction at relatively low reaction energies, below 500 eV. At…ibt.lbl.gov
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Probing neutrons and purported fission daughter products from gas-loaded, laser-irradiated metal-hydrogen targets
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Probing neutrons and purported fission daughter products from gas-loaded, laser-irradiated metal-hydrogen targets