Speaker
Dr
Gennadiy Filippov
(Cheboksary Polytechnic Institute)
Description
Early it was found the significant change in the size of the projectile’s wave packet correlation length during the initial short time after penetration in the volume of a solid. Because the correlation length becomes much less compared to the initial size of the packet, suppose that after the penetration in the solid the projectile appears in one of spatially localized states with the central mean point found in one of large number of positions predicted by the initial packet width. Such a spatially localized state can produce the polarization well that can capture the projectile in the same quantum-mechanical coupling state. In the present work the possibility of corresponding polarization phenomena are estimated and problems connected to this phenomenon are discussed.
Summary
Localization phenomena in the problem of quantum particle interaction with disordered solid are considered.
Primary author
Dr
Gennadiy Filippov
(Cheboksary Polytechnic Institute)