Vol. 9, no.1, 2017
РусскийEnglish

NUCLEAR PHYSICS



MULTINUCLEAR REACTIONS IN CONDENSED HELIUM
Gennady V. Mishinsky
Joint Institute for Nuclear Research, http://www.jinr.ru
6, str. Joliot Curie, Dubna 141980 Moscow Region, Russian Federation
mysh@jinr.ru

Received 25.04.2017
Abstract. Helium high-pressure chambers filled with gaseous helium at pressures of about 1.1 and 3 kbar were irradiated by bremsstrahlung gamma rays with a maximum energy of 10 MeV during ~105 s. Inside the reaction chambers “extraneous” chemical elements are found which were absent prior to the onset of irradiation. To explain the appearance of synthesized elements, a new mechanism is proposed: multinuclear reactions. These reactions are due to the creation of nuclear molecules which consist of several helium nuclei. Nuclear molecules are formed by the fusion of several orthohelium atoms. It is proposed to execute experiments aimed at recording multinuclear reactions by passing electric discharges through helium or through a mixture of helium and hydrogen at a pressure of several bars.

Keywords: condensed matter nuclear science, low energy transmutation, multinuclear reactions, nuclear molecules, Bose–Einstein condensate

PACS: 03.75.Mn; 03.75.Nt; 25.70.Jj; 31.15.xg

RENSIT, 2017, 9(1):94-105 DOI: 10.17725/rensit.2017.09.094

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