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ISSN (Print): 2333-4568 ISSN (Online): 2333-4576 Website: https://www.sciepub.com/journal/ijp Editor-in-chief: B.D. Indu
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International Journal of Physics. 2021, 9(6), 280-285
DOI: 10.12691/ijp-9-6-4
Open AccessArticle

Spin Supercurrent as a “Strange” Radiation in Low-Energy Nuclear Reactions

Liudmila B. Boldyreva1,

1The State University of Management

Pub. Date: November 17, 2021
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Cite this paper:
Liudmila B. Boldyreva. Spin Supercurrent as a “Strange” Radiation in Low-Energy Nuclear Reactions. International Journal of Physics. 2021; 9(6):280-285. doi: 10.12691/ijp-9-6-4

Abstract

The numerous experiments in which the features of Low-Energy Nuclear Reactions (LENR) were researched show that the emergence of new chemical elements in the reactions are accompanied by a radiation that has been detected on nuclear photographic plates located outside of the work chamber. Besides interactions between the radiation with various materials and absence of shielding by electromagnetic and molecular screens, it is characterized by other properties as well: nonmagnetic and nonelectric nature, the accompaniment by electromagnetic radiation, magnetization of nonmagnetic materials, etc. However, the nature of the radiation is left unknown, therefore this radiation is referred to as “strange” radiation. With the aim of determining the physical nature of “strange” radiation the properties of such process as spin supercurrent are analyzed in this work. The spin supercurrent emerges between objects having precessing spin and tends to equalize the respective characteristics of the spins (angles of precession and angles of deflection); that is, it transforms the angular momentum associated with spins. The investigations of spin supercurrent were conducted from 1976; in 2008 Yu. Bunkov, V. Dmitriev and I. Fomin, were awarded the Fritz London Memorial Prize for the studies of spin supercurrents in superfluid 3Не-B. The comparison of the properties of spin supercurrent with properties of “strange” radiation allows us to conclude the following: the spin supercurrent may be the physical process which accompanies Low-Energy Nuclear Reactions and called as “strange” radiation. From conducted investigations it follows that spin supercurrent does not only accompany Low-Energy Nuclear Reactions but it may stimulate the accomplishment of these reactions as well.

Keywords:
strange radiation spin supercurrent low-energy nuclear reactions spin virtual photons

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References:

[1]  Fleischmann, M., Pons, S. and Hawkins, M. "Electrochemically induced nuclear fusion of deuterium". Journal of Electroanalytical Chemistry, 261. 301-317. 1989.
 
[2]  Battaglia, A., Daddi, L., Focardi, S. et al. "Neutron Emission in Ni-H Systems". Il Nuovo Cimento, 112A(9). 921-931. 1999.
 
[3]  Urutskoev, L.I., Liksonov, V.I. and Tsinoev, V.G. "Observation of transformation of chemical elements during an electric discharge." Ann. Fond. L.de Broglie, 27(4). 701-726. 2002.
 
[4]  Maxwell, J.C. "On Physical Lines of Force. Part II: The Theory of Molecular Vortices Applied to Electric Currents." Philosophical Magazine, 21 & 23, Series 4. 1861.
 
[5]  Vuorio, M. "Relaxation by magnetic counterflow in superfluid 3He". J. Phys. C: Solid State Phys., 9(11). 267-270. 1976.
 
[6]  Borovic-Romanov, A.S., Bunkov, Yu.M., Dmitriev, V.V., Mukharskii, Yu.M. and Sergatskov, D.A. "Investigation of Spin Supercurrents in 3He-B". Phys. Rev. Lett., 62(14). 1631-1634. 1989.
 
[7]  Bunkov, Yu.M. "Spin Superfluidity and Coherent Spin Precession". Journal of Physics: Condensed Matter, 21(16). 164201 (6pp). 2009.
 
[8]  Dmitriev, V.V. and Fomin, I.A. "Homogeneously precessing domain in 3He-B: formation and properties". Journal of Physics: Condensed Matter, 21(16). 164202 (9 pp). 2009.
 
[9]  Feynman, R. "Space-time approach to quantum electrodynamics". Phys. Rev., 76. 769-789. 1949.
 
[10]  Weber, M., and Kelvin, L. "Three Photon Annihilations of Positrons and Positronium in Solids with Two Detectors in Coincidence". Radiat. Phys. Chem., 58(5-6). 749-75. 2000.
 
[11]  Boldyreva, L.B. A theory of spin vortices in a physical vacuum consisting of quantum oscillators. Cambridge Scholars Publishing. 2021. https://www.cambridgescholars.com/product/978-1-5275-6455-8.
 
[12]  Purcell, E.§®. Electricity and Magnetism, Berkeley physics course, McGraw-Hill Book company, Volume 2, 1965,
 
[13]  Born, M. Einstein's Theory of Relativity, Dover Publications", New York, 1962.
 
[14]  Abragam, A. and Goldman, M. Nuclear Magnetism: Order & Disorder. V.2 Oxford: Clarendon Press. 1983.
 
[15]  Pokazaniev, V. and Skrotskii, G. "Pseudomagnetism". Physics-Uspekhi, 129(4). 615-644. 1979 (in Russian).
 
[16]  Richards§àn, F. and Riehl, J. "Circularly polarized luminescence spectroscopy". Chem. Rev., 77. 773. 1977.
 
[17]  Zhigalov, V.A., Parkhomov, A.G., Zabavin, S.N., Sobolev, A.G. and Timerbulatov, T.R. "Track statistics strange radiation from operating reactors LENR". 2018. https://e-catworld.com/wp-ontent/uploads/2018/10/Strange-Radiation.pdf.
 
[18]  Parkhomov, §¡.G. "Cold Transmutation of Nuclei: Strange Outcomes and Attempts to Explain them". International Journal of inconventional science, 1(1). 71-76. 2013.
 
[19]  Matsumoto, T. "Observation of meshlike traces on nuclear emulsions during cold fusion", Fusion tech. 23, 103-113. 1993.
 
[20]  Lochak, G. and Urutskoev, L. "Low-energy nuclear reactions and the leptonic monopole". Fondation Louis de Broglie, Paris, France, RECOM. 2021. https://lenr-canr.org/acrobat/LochakGlowenergyn.pdf.
 
[21]  Shishkin, A.L. and Tatur, V.Yu. "Evaluation of the effects of Strange Radiation on Biological Objects". International Journal of inconventional science, 23-24(7). 139-141. 2019.
 
[22]  Boldyreva, L.B. "Quantum correlation ¨C Spin supercurrents". International Journal of Quantum Information, 12(1). 1450007 (13 pp). 2014.
 
[23]  Scarani, V., Tittel, W., Zbinden, H. and Gisin, N. "The speed of quantum information and the preferred frame: analysis of experimental data". Physics Letters A, 276(1-4). 1-7. 2002.
 
[24]  Sedov, L.I. "A Course in Continuum Mechanics. Wolters-Noordhoff, Volume 1-4. 1971-1972.
 
[25]  Boldyreva L.B. "An Analogy Between Effects of Ultra-low Doses of Biologically Active Substances on Biological Objects and Properties of Spin Supercurrents in Superfluid 3He-B. Homeopathy, 100(3). 187-193. 2011.
 
[26]  Pryakhin, E.A., Tryapitsina, A.T., Urutskoyev, L.I. and Akleyev, A.V. "Assessment of biological effects of "strange" radiation". Annales de la Fondation Louis de Broglie, 31(4), 2006. http://aflb.ensmp.fr/AFLB-314/aflb314m514.pdf.
 
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