Title :
Modeling of macroscopic quantum resonance processes in electron and positron flows
Author :
Mozgovoi, Yury D. ; Khritkin, Sergei A.
Author_Institution :
Moscow Inst. of Electron. & Math., Nat. Res. Univ. Higher Sch. of Econ., Moscow, Russia
Abstract :
Using methods of computing modeling, resonant processes of merger of groups of electrons and positrons into macroplasmoid with the compensated Coulomb field and identical wave fields of electrons and positrons are considered. The macroscopic quantum processes in the toroidal storage leading to receiving the superfluid medium currents proportional to a gradient of a phase and the ring toroidal currents proportional to vector potential, and being superconductivity currents are discussed.
Keywords :
electron-positron interactions; plasma toroidal confinement; quantum computing; superconducting critical field; compensated Coulomb field; computing modeling; electron flows; identical wave fields; macroplasmoid; macroscopic quantum processes; positron flows; resonant processes; ring toroidal currents; superconductivity currents; superfluid medium currents; toroidal storage; vector potential; Electric potential; Magnetic fields; Mathematical model; Plasmas; Positrons; Superconductivity; Wave functions; electron-positron medium; macroplasmoid; the macroscopic wave function;
Conference_Titel :
Vacuum Electronics Conference (IVEC), 2015 IEEE International
Conference_Location :
Beijing
Print_ISBN :
978-1-4799-7109-1
DOI :
10.1109/IVEC.2015.7223782
