# Chiral Light--Matter Interaction Beyond the Rotating-Wave Approximation

**Authors:** Sahand Mahmoodian

arXiv: 1905.13495 · 2019-10-02

## TL;DR

This paper explores chiral light-matter interactions in the ultrastrong coupling regime beyond the rotating-wave approximation, revealing new coupling mechanisms and ground state properties with implications for quantum engineering.

## Contribution

It introduces a novel model of light-matter interaction that includes counter-rotating terms and constructs an analytic ansatz leveraging angular momentum conservation.

## Key findings

- Ground states are two-mode squeezed.
- Counter-rotating terms enable coupling to decoupled modes.
- Analytic solutions provide insight into dynamics beyond RWA.

## Abstract

I introduce and analyse chiral light--matter interaction in the ultrastrong coupling limit where the rotating-wave approximation cannot be made. Within this limit, a two-level system (TLS) with a circularly polarized transition dipole interacts with a copolarized mode through rotating-wave terms. However, the counter-rotating terms allow the TLS to couple to a counter-polarized mode with the same coupling strength, i.e., one that is completely decoupled within the rotating-wave approximation. Although such a Hamiltonian is not particle number conserving, the conservation of angular momentum generates a $U(1)$ symmetry which allows constructing an ansatz. The eigenstates and dynamics of this novel model are computed for single-cavity interactions and for a many-mode system. The form of the ansatz provides significant analytic insight into the physics of the ground state and the dynamics, e.g., it indicates that the ground states are two-mode squeezed. This work has significant implications for engineering light--matter interaction and novel quantum many-body dynamics beyond the rotating-wave approximation.

## Full text

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## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/1905.13495/full.md

## References

42 references — full list in the complete paper: https://tomesphere.com/paper/1905.13495/full.md

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Source: https://tomesphere.com/paper/1905.13495