%0 Journal Article
%T On the Photonuclear Rates Calculation for Nuclear Transmutation of Beta Decay Nuclides by Application of the Ginzburg-landau Theory
%J Journal of Nuclear and Particle Physics
%@ 2167-6909
%D 2012
%I 
%R 10.5923/j.jnpp.20120203.05
%X The main aim of this paper is to found which are the conditions the photonuclear reactions in order to accelerate the beta decay of radionuclides. Therefore, it was developed a new model where the photonuclear reaction at above the giant resonance cross section (GR) is viewed as an incident photon creating superconducting hot spot (hot belt) across nucleons from a neutron-proton[n-p] pair (a quasi-deuteron ) of the valence bosons of a unstable nuclide, accordingly with IBAF model and, followed by a thermally induced vortex crossing, which turns superconducting hot belt into the normal state (vacuum) resulting in a vortex assisted photon beta decay with the fermion (e+,e-) release (capture), and eventually the pair break-up by a reaction. Since, a such model requires data on energies of vortex and on currents from inside of the nucleon, an analogue of a superconductor model was developed for the nucleon, and tested on the data of natural beta decay viewed as dark count. The results consist in obtaining a precise value of the threshold energy of the photons when the beta decay of the radionuclides is accelerated. Such efficient installations could be , for example, the laser ELI-NP in construction in Romania for the higher energy photons source.
%K Beta Decay
%K Nuclear Transmutation
%K Photonuclear Reactions
%K High Energy Lasers
%K W
%K Z
%K Higgs Bosons
%K G-L Theory
%U http://article.sapub.org/10.5923.j.jnpp.20120203.05.html