# Critical phenomena and nonlinear dynamics in a spin ensemble strongly   coupled to a cavity. I. Semiclassical approach

**Authors:** Dmitry O. Krimer, Matthias Zens, and Stefan Rotter

arXiv: 1903.06892 · 2019-08-06

## TL;DR

This paper investigates the nonlinear dynamics and phase transitions in a spin ensemble coupled to a cavity, using a semiclassical approach to analyze critical phenomena, bistability, and experimental verification.

## Contribution

It introduces a semiclassical model for inhomogeneously broadened spin ensembles coupled to a cavity, revealing critical phenomena and steady-state behaviors near phase transitions.

## Key findings

- Identification of critical slowing-down near phase transition
- Observation of bistability in the system
- Experimental verification with nitrogen-vacancy centers in diamond

## Abstract

We present a theoretical study on the nonlinear dynamics and stationary states of an inhomogeneously broadened spin ensemble coupled to a single-mode cavity driven by an external drive with constant amplitude. Assuming a sizeable number of constituents within the ensemble allows us to use a semiclassical approach and to formally reduce the theoretical description to the Maxwell-Bloch equations for the cavity and spin amplitudes. We explore the critical slowing-down effect, quench dynamics, and asymptotic behavior of the system near a steady-state dissipative phase transition accompanied by a bistability effect. Some of our theoretical findings have recently been successfully verified in a specific experimental realization based on a spin ensemble of negatively charged nitrogen-vacancy centers in diamond strongly coupled to a single-mode microwave cavity (see Science Adv. 3, e1701626 (2017)).

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1903.06892/full.md

## References

47 references — full list in the complete paper: https://tomesphere.com/paper/1903.06892/full.md

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Source: https://tomesphere.com/paper/1903.06892