Einselection from incompatible decoherence channels
Abstract
Decoherence of quantum systems from entanglement with an unmonitored environment is to date the most compelling explanation of the emergence of a classical picture from a quantum world. While it is well understood for a single Lindblad operator, the role in the einselection process of a complex system-environment interaction remains to be clarified. In this paper, we analyze an open quantum dynamics inspired by CQED experiments with two non-commuting Lindblad operators modeling decoherence in the number basis and dissipative decoherence in the coherent state basis. We study and solve exactly the problem using quantum trajectories and phase-space techniques. The einselection optimization problem, which we consider to be about finding states minimizing the variation of some entanglement witness at a given energy, is studied numerically. We show that Fock states remain the most robust states to decoherence up to a critical coupling.
Cite
@article{arxiv.2001.10851,
title = {Einselection from incompatible decoherence channels},
author = {Alexandre Feller and Guillaume Coeuret Cauquil and Benjamin Roussel},
journal= {arXiv preprint arXiv:2001.10851},
year = {2020}
}
Comments
16 pages, 12 figures