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Abnormal absorption of hydrogen in nickel at ambient temperature with associated emission of neutrons # Ubaldo Mastromatteo 1 1 A.R.G.A.L. Via S. Stefano, 27/B – 20008 Bareggio (MI), Italy, E-mail: ubaldo.mastromatteo@libero.it While it is known that nickel at a temperature of a few hundred degrees if in hydrogen can slowly absorb a certain amount of this gas [1], there is no evidence that this can occur at room temperature and at pressures below 1 bar. On the contrary, by conducting studies and experiments on LENR anomalies in the ARGAL laboratory in Bareggio, Italy, it has been experimentally verified several times...

A hybrid fusion fast fission reactor Abstract A hybrid nuclear fusion fast fission reactor is disclosed. The hybrid reactor may include an electrolyte solution comprised of PdCI2 a conductive salt and D2O, an anode of a noble metal, a cathode consisting of a conductive high Z (atomic number greater than 46) material wound around a deuteride-forming actinide nuclear fuel element, a power source providing constant current to the + anode and the - cathode, an applied power profile for fabricating the PdD nanoalloy, and a co-deposition of a PdD nanoalloy on to the high Z cathode winding as well as...

Progress in Energy Generation Research using Nano-Metal with Hydrogen/Deuterium Gas #Y. Iwamura1 , T. Itoh1,2 , J. Kasagi1 , T. Takahashi2 , M. Saito2 , Y. Shibasaki2 and S. Murakami2 1Research Centre for Electron Photon Science, Tohoku University, Sendai, 982-0826, Japan 2 Clean Planet Inc., Tokyo, 105-0022, Japan E-mail: iwamura@lns.tohoku.ac.jp , The field of condensed matter nuclear science originated in 1989 with Fleischmann and Pons' electrolysis of Pd with heavy water. Electrochemistry is an excellent method for packing deuterium into Pd metal at high density. However, from the perspective of using the excess heat generated for practical purposes, temperature increase...

Plasmonic Condensed Matter Nuclear Fusion Katsuaki Tanabe Kyoto University, Japan E-mail: tanabe@cheme.kyoto-u.ac.jp The intensity and density of the triggering energy supplied to activate the nuclear fusion reaction are key factors to produce a smooth and reproducible initiation of the reaction. We previously proposed and numerically analyzed a scheme to provide high-density optical or electromagnetic energy to fusion-fuel materials by lasers and plasmonic field-enhancement effects, to significantly increase the reaction probability [1–6]. Large degrees of field enhancements, or energy focusing, were observed around metal nanoparticles and nanoshells [1], planar metal surfaces [2,3], metal/oxide interfaces [5], sharp metal tips [4], and metal...

arXiv.org > physics > arXiv:2106.12988 Physics > Plasma Physics [Submitted on 22 Jun 2021] Enhanced D-D Fusion Rates when the Coulomb Barrier Is Lowered by Electrons Alfred Y. Wong, Alexander Gunn, Allan X. Chen, Chun-Ching Shih, Mason J. Guffey A profusion of unbound, low-energy electrons creates a local electric field that reduces Coulomb potential and increases quantum tunneling probability for pairs of nuclei. Neutral beam-target experiments on deuterium-deuterium fusion reactions, observed with neutron detectors, show percentage increases in fusion products are consistent with electron-screening predictions from Schrodinger wave mechanics. Experiments performed confirm that observed fusion rate enhancement with a negatively...

Nuclear transmutations are better facilitated by alloys over pure metal cathodes in electrolysis. Kumar Ankit , Rajeev K. P., Pala Raj Ganesh, Jain Panka Indian Institute of Technology Kanpur Email:ankt@iitk.ac.in, kpraj@iitk.ac.in, rpala@iitk.ac.in, pkjain@iitk.ac.in Recently, various studies have shown Nuclear signatures in low energy physical and chemical processes (“Cold fusion” edited by Jean-Paul Biberian). One of the most effective methods to realize low energy nuclear reactions (LENR) is via electrolysis. Our primary objective is to explore the importance of alloys as opposed to pure metals as cathodes for LENR. To explore this question, we evaluated four systems: Pure Ni, pure Cu,...

Temperature and pressure dependence of anomalous heat generation occurring in hydrogen gas absorption by metal powder Tomotaka Kobayashi 1 , Junsuke Shigemura 1 , Ken Naitoh 1 Yutaka Mori 2 , Reiko Seto 2 , Joji Hachisuka 2 1 Waseda University, Japan 2 Technova Inc., Japan E-mail: winningshot1996@asagi.waseda.jp It is known that anomalous heat is generated when hydrogen (or deuterium) gas is absorbed by nickel or palladium powder [1-2]. There are lots of researches while increasing either initial temperature or pressure in reaction chamber. In our previous report [3], we developed a small constant-volume reaction system (shown in Fig. 1)...

https://www.lenr-forum.com/forum/thread/6508-frank-gordon-s-lattice-energy-converter-lec-replicators-workshop/?postID=158361#post158361 Jun 14th 2021 New #193 As anticipated, I will report here details of the my replication of a working LEC device. Construction of the device and preliminary tests can be found in my previous posts. The device used here (brass-brass) is exaclty the same tested before as control (Fig. 1). - Electroplating/Co-deposition process The working electrode (WE) was gently rubbed with fine sandpaper and cleaned with alcohol, then it was placed in the electrolytic cell. The cell was realised with a normal test tube, with four 1 mm iron wires sourrounding the WE. The iron wires were connected to...

https://www.mail-archive.com/vortex-l@eskimo.com/msg117156.html Re: [Vo]:Mizuno - and possibly his most overlooked paper Jones Beene Mon, 11 Mar 2019 13:53:05 -0700 Here is a suggestion for Norront Fusion (Holmlid licensee) ... Their website indicates they have three Holmlid-effect muon generators operating at the moment. Suggestion: Hybrid Holmlid/Mizuno device for generating neutrons. Place a magnetized Mizuno device in the output path of a Holmlid muon generator. Typically every muon catalyzes ahundred or so D+D fusions. A small muon output is thereby multiplied. That is such a major improvement that physicists would be impressed to the extent that massive financial support would be shifted from...

Laser induced transmutation in palladium thin films in hydrogen atmosphere Jean-Paul Biberian 1, Pamela Mosier-Boss 2, Larry Forsley2, 1 Aix-Marseille University, France 2 Global Energy Corporation, U.S.A. E-mail: jpbiberian@tahoo.fr Ubaldo Mastromatteo [1], published in 2016 a very simple experiment where he directed a laser beam on a thin film of palladium deposited on a silicon oxide substrate in H2 and D2 atmospheres. By SEM he showed formation of many new elements. Recently we did the same experiment with identical samples in H2 and D2. Both experiments in H2 and D2 atmosphere lasted 3 months. We used a 5mW laser at...

A perspective from the “Google group”Matt TrevithickJune 9, 2021 ICCF-2323rd International Conference on Condensed Matter Nuclear Science mdt@google.comWhat would happen if well-qualified, open-minded, academic scientists were giventhe opportunity to investigate cold fusion?Volume 570 Issue 7759, 6 June 2019Published online 27 May 2019 Author's link: https://rdcu.be/bEAsTCo-signatories to the Nature Perspective (information as of 27 May 2019) University of British ColumbiaDr. Phil A. Schauer, Staff Scientist Mr. Ben P. MacLeod, Ph.D. Candidate Dr. Brian Lam, Postdoctoral Fellow Mr. Ke Hu, M.A.Sc. CandidateDr. Noah J. J. Johnson, Postdoctoral Fellow Ms. Rebecca S. Sherbo, Ph.D. CandidateDr. James W. Grayson, Former Postdoctoral Fellow Mr. Fraser...

ICCF-23 Online Conference, June 9-11, 2021 Posted on June 8, 2021 23rd International Conference on Condensed Matter Nuclear Science (ICCF-23) 9th, 2021 to June 11th It was an online conference this year, originating from Xiamen University in Xiamen China, hosted by Innovation Laboratory for Sciences and Technologies of Energy Materials of Fujian Province (IKKEM), and the State Key Laboratory of Physical Chemistry of Solid Surfaces. List of speakers is below: http://ikkem.com/ICCF23_Speakers.php Presentation ID • Title • Presenter ICCF23-PL-01 • A perspective from the Google group • Matthew D. Trevithick ----------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------------- ICCF23-PL-02 • Ternary hydrides • Ping Chen ----------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------...

Novel Nuclear Reactions Observed in Bremsstrahlung-Irradiated Deuterated Metals Bruce M. Steinetz, Theresa L. Benyo, Arnon Chait, and Robert C. Hendricks National Aeronautics and Space Administration Glenn Research Center Cleveland, Ohio 44135 Lawrence P. Forsley JWK Corporation Annandale, Virginia 22003 Bayarbadrakh Baramsai, Philip B. Ugorowski, and Michael D. Becks Vantage Partners, LLC Brook Park, Ohio 44142 Vladimir Pines and Marianna Pines PineSci Consulting Avon Lake, Ohio 44012 Richard E. Martin Cleveland State University Cleveland, Ohio 44115 Nicholas Penney Ohio Aerospace Institute Brook Park, Ohio 44142 Gustave C. Fralick and Carl E. Sandifer, II National Aeronautics and Space Administration Glenn Research Center...

Nuclear Fusion Reactions in Deuterated Metals Vladimir Pines and Marianna Pines PineSci Consulting Avon Lake, Ohio 44012 Arnon Chait and Bruce M. Steinetz National Aeronautics and Space Administration Glenn Research Center Cleveland, Ohio 44135 Lawrence Forsley JWK Corporation Annandale, Virginia 22003 Robert C. Hendricks, Gustave C. Fralick, and Theresa L. Benyo National Aeronautics and Space Administration Glenn Research Center Cleveland, Ohio 44135 Bayarbadrakh Baramsai, Philip B. Ugorowski, and Michael D. Becks Vantage Partners, LLC Brook Park, Ohio 44142 Richard E. Martin Cleveland State University Cleveland, Ohio 44115 Nicholas Penney Ohio Aerospace Institute Brook Park, Ohio 44142 Carl E. Sandifer, II...

Physicists Observe New Phase in Quantum Condensate of Light Apr 2, 2021 by Enrico de Lazaro Physicists at the University of Bonn have experimentally observed a new, previously unknown phase in the photon Bose-Einstein condensate. The Bose-Einstein condensate is a gas of atoms so dense and cold that their matter waves lose their individuality and condense into a ‘superatom wave.’ It was predicted in the 1920s by Satyendra Nath Bose and Albert Einstein and was eventually created in the lab in the 1990s at the University of Colorado Boulder, MIT and Rice University using laser cooling and evaporative cooling techniques....

Neutron to be the tightly bound proton-electron pair and the nucleus to be constituted by protons and internal electrons March 2021 Authors: Noriyuki Kodama Tokyo Institute ------------------------------------------------------------ Neutron to be the tightly bound proton-electron pair and the nucleus to be constituted by protons and internal electrons Noriyuki Kodama Studied Physics at Tokyo Institute of Technology (1983-1987), Studying cold fusion as an independent researcher since 2020. Sekido 5-2-7, Tama-city, Tokyo, 206-0011, Japan, +81-90-6164-9203, noriyuki.kodama.0820@gmail.com ------------------------------------------------------ Abstract Original nucleus model in the 1920s was the internal electron theory that the atomic nucleus is constituted by protons and electrons, and Rutherford already suggested...

Lattice Confinement Fusion NASA Detects Lattice Confinement Fusion A team of NASA researchers seeking a new energy source for deep-space exploration missions, recently revealed a method for triggering nuclear fusion in the space between the atoms of a metal solid. Their research was published in two peer-reviewed papers in the top journal in the field, Physical Review C, Volume 101 (April, 2020): “Nuclear fusion reactions in deuterated metals” and “Novel nuclear reactions observed in bremsstrahlung-irradiated deuterated metals.” Nuclear fusion is a process that produces energy when two nuclei join to form a heavier nucleus. “Scientists are interested in fusion, because...

Lattice Confinement Nuclear Fusions Using Photon Showered Erbium: Another Kind of Room Temperature Fusion Discovery in NASA’s Glenn Research Center Tae Ho Woo Department of Mechanical and Control Engineering, The Cyber University of Korea, Seoul 03051, Republic of Korea *Corresponding author: thw_kor@hotmail.com ---------------------------------------------------- Lattice Confinement Nuclear Fusions Using Photon Showered Erbium: Another Kind of Room Temperature Fusion Discovery in NASA’s Glenn Research Center Transactions of the Korean Nuclear Society Virtual spring Meeting May 13-14, 2021 Files 1. Introduction Another kind of room temperature fusion is investigated at NASA’s Glenn research center for seeking energy sources applicable in the deep-space journeys...

According to Jed Rothwell The first ~100 replications came in from a veritable Who's Who of electrochemistry. https://www.mail-archive.com/v…@eskimo.com/msg82379.html Where are all those replication reports? 1 ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- JedRothwell Verified User Reactions Received 10,094 Jun 15th 2017 #2 http://lenr-canr.org/acrobat/RothwellJtallyofcol.pdf See also Table 2 in Storms, "Science Of Low Energy Nuclear Reaction" Member Reactions Received 846 Jun 15th 2017 #4 Ok, I see. It's Appendix A, List 2 of Jed's tallies. 153 documented peer reviewed Excess Heat findings. List 2. Peer-reviewed excess heat papers, from both databases 1. Agelao, G. and M.C. Romano, Heat and helium production during exothermic reactions between gases through...

Is the Dream of Cold Fusion Still a Possibility? By: Patrick J. Kiger | Jan 22, 2021  To some, it might seem as if investigating and re-investigating cold fusion is a waste of time and resources, but some scientists don't see it. Back in March 1989, at a press conference in Salt Lake City, scientists Stanley Pons of the University of Utah and Martin Fleischmann of Great Britain's University of Southampton made a startling announcement. The researchers had managed to fuse the atomic nuclei of a hydrogen isotope to create helium — the same sort of process that powers...