|
Simulation on elementary processes of nuclear, atomic and molecular physics on basis of quantum theory of scattering
S. A. Pozdneev Lebedev Physical Institute RAS, Department of Quantum Radiophysics, Laboratory of Photochemical Processes
Abstract:
The quantum theory of few-body scattering based on the Faddeev–Yakubovsky equations is applied to the simulation of the main characteristics of elementary processes in nuclear, atomic and molecular physics such as: the electron scattering with the diatomic initial rovibrational existing molecules, simulation of bound and scattering states for neutron-deuton, proton-deuton, positronium ion and so on. The results of this calculations are compared with available exsperimental data and other calculation.
Keywords:
mathematical simulation, quantum theory of few-body scattering, elementary processes, Faddeev equations.
Received: 29.10.2015 Revised: 21.09.2016
Citation:
S. A. Pozdneev, “Simulation on elementary processes of nuclear, atomic and molecular physics on basis of quantum theory of scattering”, Matem. Mod., 29:3 (2017), 63–80
Linking options:
https://www.mathnet.ru/eng/mm3827 https://www.mathnet.ru/eng/mm/v29/i3/p63
|
|