JCMNS: Experiments and Methods in Cold Fusion

Preface:

This Volume 22 marks the tenth anniversary of the publication of the first volume of the Journal of Condensed Matter Nuclear Science. This journal was created to fill a void in the scientific world. Since the beginning, in 1989, the subject of Cold Fusion, discovered by Martin Fleischmann and Stanley Pons, has been, and is still, rejected by the scientific community. There was a need to go beyond the International Conferences on Cold Fusion proceedings to publish papers. It was necessary to have an internal way of communicating between scientists working together, just like in any other field of science. From the very start, it was decided that the journal would be peer reviewed. Also, since ICCF16, the Journal publishes the proceedings of the conferences and workshops dedicated to Condensed Matter Nuclear Science. A total of 312 papers have been published, 93 of them being conference proceedings.

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This journal features articles from Mitchell Swartz and Peter Hagelstein, among others.

Current Science Issue on LENR

Preface,  M. Srinivasan, A. Meulenberg
Cold fusion: comments on the state of scientific proof, Michael C. H. McKubre
Selective resonant tunnelling – turn the hydrogen-storage material into energetic material, C. L. Liang, Z. M. Dong and X. Z. Li
Highly reproducible LENR experiments using dual laser stimulation, Dennis Letts
Condensed matter nuclear reaction products observed in Pd/D co-deposition experiments, P. A. Mosier-Boss, L. P. Forsley, F. E. Gordon, D. Letts, D. Cravens, M. H. Miles, M. Swartz, J. Dash, F. Tanzella, P. Hagelstein, M. McKubre and J. Bao
Use of CR-39 detectors to determine the branching ratio in Pd/D co-deposition, P. A. Mosier-Boss, L. P. G. Forsley, A. S. Roussetski, A. G. Lipson, F. Tanzella, E. I. Saunin, M. McKubre, B. Earle and D. Zhou
Observation and investigation of anomalous X-ray and thermal effects of cavitation, V. I. Vysotskii, A. A. Kornilova and A. O. Vasilenko
Transmutation reactions induced by deuterium permeation through nano-structured palladium multilayer thin film, Yasuhiro Iwamura, Takehiko Itoh and Shigenori Tsuruga
Biological transmutations, Jean-Paul Biberian
Microbial transmutation of Cs-137 and LENR in growing biological systems, V. I. Vysotskii and A. A. Kornilova
Energy gains from lattice-enabled nuclear reactions, David J. Nagel
Summary report: ‘Introduction to Cold Fusion’ – IAP course at the Massachusetts Institute of Technology, Gayle Verner, Mitchell Swartz and Peter Hagelstein
Condensed matter nuclear science research status in China, Z. M. Dong, C. L. Liang and X. Z. Li
Extensions to physics: what cold fusion teaches  A. Meulenberg
Phonon models for anomalies in condensed matter nuclear science  Peter L. Hagelstein and Irfan U. Chaudhary
Development status of condensed cluster fusion theory  Akito Takahashi
Model of low energy nuclear reactions in a solid matrix with defects  K. P. Sinha
Coherent correlated states of interacting particles – the possible key to paradoxes and features of LENR  Vladimir I. Vysotskii and Mykhaylo V. Vysotskyy
Sidney Kimmel Institute for Nuclear Renaissance  G. K. Hubler, A. El-Boher, O. Azizi, D. Pease, J. H. He, W. Isaacson, S. Gangopadhyay and V. Violante
Progress towards understanding anomalous heat effect in metal deuterides  O. Azizi1, A. El-Boher, J. H. He, G. K. Hubler, D. Pease, W. Isaacson, V. Violante and S. Gangopadhyay
Review of materials science for studying the Fleischmann and Pons effect  V. Violante, E. Castagna, S. Lecci, F. Sarto, M. Sansovini, A. Torre, A. La Gatta, R. Duncan, G. Hubler, A. El Boher, O. Aziz, D. Pease, D. Knies and M. McKubre
Role of Russian scientists in cold nuclear fusion and transmutation  Yu. N. Bazhutov
Observation of radio frequency emissions from electrochemical loading experiments  D. A. Kidwell, D. D. Dominguez, K. S. Grabowski and L. F. DeChiaro Jr.
Brief summary of latest experimental results with a mass-flow calorimetry system for anomalous heat effect of nano-composite metals under D(H)-gas charging  A. Kitamura, A. Takahashi, R. Seto, Y. Fujita, A. Taniike and Y. Furuyama
Condensed matter nuclear reactions with metal particles in gases  Dennis Cravens, Mitchell Swartz and Brian Ahern

Dry, preloaded NANOR®-type CF/LANR components  Mitchell Swartz, Gayle Verner, Jeffrey Tolleson and Peter Hagelstein
Directional X-ray and gamma emission in experiments in condensed matter nuclear science  Peter L. Hagelstein
Observation of neutrons and tritium in the early BARC cold fusion experiments  Mahadeva Srinivasan
Introduction to isotopic shifts and transmutations observed in LENR experiments  Mahadeva Srinivasan
Status in Japan  Akira Kitamura

Working LENR Device at MIT

Dr. Peter Hagelstein of the Massachusetts Institute of Technology (MIT) is one of the most respected proponents and theorists on LENR and cold fusion.  Professor Hagelstein is a principal investigator in the Research Laboratory of Electronics (RLE) at MIT. He received the B.S. and the M.S. in 1976, and the Ph.D. in electrical engineering in 1981, from MIT.  He was a staff member of Lawrence Livermore National Laboratory from 1981 to 1985 before joining the MIT faculty in the Department of Electrical Engineering and Computer Science in 1986.

Below is amateur video of the of the Nanor low energy nuclear reaction device designed and built by Mitchell Swartz of Jet Energy.  It is reported the Nanor has been continuously producing 10-14 times the energy input since being observed and stored at MIT in January of 2012.