The rotary and kinetic moments of charged particle in fluctuational thermal electric field in condensed matter upon the action of external magnetic field

Presented are common and distinctive mechanisms of behavior of rotary and kinetic moments of an individual free charged particle, which particle is located in the potential well of condensed matter, depending on the type of the applied external magnetic field (MF): constant and alternating fields are orthogonal or co-linear (the combined field). It is shown, that the action of combined MF leads to energy resonance of rotary moment and to amplification of kinetic moment, whereas the action of orthogonal MF leads to magnetic resonance. The problem of appearance of additional magnetization of matter depending on the type of MF is discussed.