Vol. 10, no.1, 2018
РусскийEnglish
NUCLEAR PHYSICS
NON-COULOMB NUCLEAR REACTIONS OF TRANSATOMS. STELLAR ENERGY AND NUCLEOSYNTHESIS
Gennady V. Mishinsky
Joint Institute for Nuclear Research, http://www.jinr.ru
Dubna 141980, Moscow Region, Russian Federation
mysh@jinr.ru
Received 13.04.2018
Abstract. The exchange Coulomb energy of two charged particles paired in orthoboson (S =↑↑, 1, 2, ...) has the character of attraction and it completely compensates, in the first order of perturbation theory, the energy of their Coulomb repulsion. For strongly interacting identical particles, including atomic nuclei, this fact leads to the launch of nuclear reactions without Coulomb barrier. This explains the feasibility of low energy nuclear reactions. Consequently, there is a stellar energy source as an alternative to thermonuclear fusion, and there is a process of nucleosynthesis as an alternative to the explosion of supernovae.
Keywords: quantum physics, exchange interaction, spin Bose–Einstein condensate, nuclear fusion, low energy nuclear reactions, stellar energy source, nucleosynthesis, atomic-nuclear science in condensed matter
PACS: 36.10.-k; 32.10.-f; 76.30.-v; 03.75.Mn; 03.75.Nt; 42.55.Vc; 25.60.Pj; 26.20.Cd; 26.20.Fj
RENSIT, 2018, 10(1):35-52 DOI: 10.17725/rensit.2018.10.035
Full-text electronic version of this article - web site http://en.rensit.ru/vypuski/article/243/10(1)35-52e.pdf