Coherent and semiclassical states of a charged particle in electromagnetic fields

TL;DR

This paper extends the construction and analysis of generalized coherent states for a charged particle in electromagnetic fields, exploring their properties, relations to classical states, and conditions for semiclassical behavior.

Contribution

It introduces a new framework for GCS of a 3D charged particle in electromagnetic fields, addressing technical challenges and linking to known coherent states.

Findings

Constructed GCS for a charged particle in 3D electromagnetic fields.

Analyzed properties such as completeness and uncertainty minimization.

Identified conditions for GCS to be considered semiclassical states.

Abstract

In the present article we extend our study (BJP 45 (2015) 369) of generalized coherent states (GCS) of a one-dimensional particle considering such important physical system as a 3-dimensional charged particle in electric and magnetic fields. Constructing GCS in many-dimensional case, we meet nontrivial technical complications that make the consideration nontrivial and instructive. The GCS of a system under consideration are constructed. We study properties of these GCS such as completeness relations, minimization of uncertainty relations and so on. We point out which family of the obtained GCS of a charged particle in magnetic field is related with the CS constructed first by Malkin and Man'ko. We obtain conditions under which some of the GCS can be considered as semiclassical states.