# Bridging between Lab and Rotating Frame Master Equations for Open   Quantum Systems

**Authors:** Gal Shavit, Baruch Horovitz, Moshe Goldstein

arXiv: 1907.06945 · 2019-12-05

## TL;DR

This paper develops a unified approach to modeling driven open quantum systems by bridging lab and rotating frame master equations, revealing new behaviors and improving analysis of hybrid quantum systems.

## Contribution

It introduces a method to connect lab and rotating frame master equations without secular approximation on the driving amplitude, enabling more accurate analysis of complex quantum systems.

## Key findings

- Discovery of novel coherence evolution behaviors
- Observation of population inversion at lower driving amplitudes
- Identification of new spectral features in resonance fluorescence

## Abstract

The problem of a driven quantum system coupled to a bath and coherently driven is usually treated using either of two approaches: Employing the common secular approximation in the lab frame (as usually done in the context of atomic physics) or in the rotating frame (prevailing in, e.g., the treatment of solid-state qubits). These approaches are applicable in different parts of the parameter space and yield different results. We show how to bridge between these two approaches by working in the rotating frame without employing the secular approximation with respect to the driving amplitude. This allows us to uncover novel behaviors in regimes which were previously inaccessible or inaccurately treated. New features such as the qualitative different evolution of the coherence, population inversion at a lower driving amplitude, and novel structure in the resonance fluorescence spectrum of the system are found. We argue that this generalized approach is essential for analyzing hybrid systems, with components that come from distinctly different regimes which can now be treated simultaneously, giving specific examples from recent experiments on quantum dots coupled to optical cavities, and single-spin electron paramagnetic resonance.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1907.06945/full.md

## References

44 references — full list in the complete paper: https://tomesphere.com/paper/1907.06945/full.md

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Source: https://tomesphere.com/paper/1907.06945