Open quantum systems decay across time

TL;DR

This paper develops a comprehensive, time-dependent decay theory for open quantum systems that unifies various approximations and applies to all timescales, advancing understanding of quantum dissipation and friction.

Contribution

It introduces a novel, exact decay framework for open quantum systems that generalizes existing approximations and covers all temporal regimes.

Findings

Unified decay theory applicable at all timescales

Derived generalized quantum regression relations

Applied to quantum friction phenomena

Abstract

The description of an open quantum system's decay almost always requires several approximations as to remain tractable. Here, we first revisit the meaning, domain and seeming contradictions of a few of the most widely used of such approximations: semi-group Markovianity, linear response theory, Wigner--Weisskopf and rotating-wave approximation. Secondly, we derive an effective time-dependent decay theory and corresponding generalized quantum regression relations for an open quantum system linearly coupled to an environment. This theory covers all timescales, and subsumes the Markovian and linear-response results as limiting cases. Finally, we apply our theory to the phenomenon of quantum friction.