Quasiprobability distributions in open quantum systems: spin-qubit systems
Abstract
Quasiprobability distributions (QDs) in open quantum systems are investigated for , spin like systems, having relevance to quantum optics and information. In this work, effect of both quantum non-demolition (QND) and dissipative open quantum systems, on the evolution of a number of spin QDs are investigated. Specifically, compact analytic expressions for the , , , and functions are obtained for some interesting single, two and three qubit states, undergoing general open system evolutions. Further, corresponding QDs are reported for an N qubit Dicke model and a spin-1 system. The existence of nonclassical characteristics are observed in all the systems investigated here. The study leads to a clear understanding of quantum to classical transition in a host of realistic physical scenarios. Variation of the amount of nonclassicality observed in the quantum systems, studied here,are also investigated using nonclassical volume.
Cite
@article{arxiv.1504.02030,
title = {Quasiprobability distributions in open quantum systems: spin-qubit systems},
author = {Kishore Thapliyal and Subhashish Banerjee and Anirban Pathak and S. Omkar and V. Ravishankar},
journal= {arXiv preprint arXiv:1504.02030},
year = {2022}
}
Comments
23 pages 13 figures