The time evolution operator of an atom in a deformed intense field

7 May 1992

journal article
Published by IOP Publishing in Journal of Physics A: General Physics

Vol. 25 (9) , L529-L533
https://doi.org/10.1088/0305-4470/25/9/005

Abstract

The author explicitly calculates the time evolution operator of an atom in a deformed electromagnetic field which is dependent on deformation parameter and possesses quantum group symmetry. The density operator and the time variation of photon distribution are also given, both with and without intensity-dependent coupling.

Keywords

This publication has 17 references indexed in Scilit:

Squeezing and quantum groups
Physical Review Letters, 1991
SU_{q,h(cross) to 0}(2) and SU_q,h(cross)(2), the classical and quantum q-deformations of the SU(2) algebra. III. When q is a root of unity
Journal of Physics A: General Physics, 1991
SU_{q,h(cross) to 0}(2) and SU_q,h(cross)(2), the classical and quantum q-deformations of the SU(2) algebra. II. The Hopf algebra, the Yang-Baxter equation and multi-deformed algebraic structures
Journal of Physics A: General Physics, 1990
On q-analogues of the quantum harmonic oscillator and the quantum group SU(2)_q
Journal of Physics A: General Physics, 1989
Jaynes-Cummings model with intensity-dependent coupling interacting with Holstein-Primakoff SU(1,1) coherent state
Physical Review A, 1989
QuantumR matrix for the generalized Toda system
Communications in Mathematical Physics, 1986
Solution of the Heisenberg equations for an atom interacting with radiation
Journal of Physics A: General Physics, 1984
Two-photon coherent states of the radiation field
Physical Review A, 1976
Some Exact Results for the Many-Body Problem in one Dimension with Repulsive Delta-Function Interaction
Physical Review Letters, 1967
Dynamics of a Broken $S U_{N}$ Symmetry for the Oscillator
Physical Review B, 1965