# Low- and high-$\beta$ lasers in Class-A limit: photon statistics,   linewidth, and the laser-phase transition analogy

**Authors:** Naotomo Takemura, Masato Takiguchi, Masaya Notomi

arXiv: 1904.01743 · 2021-02-09

## TL;DR

This paper explores how the spontaneous coupling coefficient $eta$ influences photon statistics and phase transition-like behavior in class-A lasers, extending the Scully-Lamb model and revealing $eta$ as a key system size parameter.

## Contribution

It extends the Scully-Lamb master equation to class-A lasers, demonstrating that $eta$ uniquely characterizes photon statistics and the laser phase transition analogy.

## Key findings

- Photon statistics are fully determined by $eta$ in class-A lasers.
- $eta$ acts as the system size in the phase transition analogy.
- The Liouvillian gap analysis links $eta$ to symmetry breaking.

## Abstract

Nanocavity lasers are commonly characterized by the spontaneous coupling coefficient $\beta$ that represents the fraction of photons emitted into the lasing mode. While $\beta$ is conventionally discussed in semiconductor lasers where the photon lifetime is much shorter than the carrier lifetime (class-B lasers), little is known about $\beta$ in atomic lasers where the photon lifetime is much longer than the other lifetimes and only the photon degree of freedom exists (class-A lasers). We investigate the impact of the spontaneous coupling coefficient $\beta$ on lasing properties in the class-A limit by extending the well-known Scully-Lamb master equation. We demonstrate that, in the class-A limit, all the photon statistics are uniquely characterized by $\beta$ and that the laser phase transition-like analogy becomes transparent. In fact, $\beta$ perfectly represents the "system size" in phase transition. Finally, we investigate the laser-phase transition analogy from the standpoint of a quantum dissipative system. Calculating a Liouvillian gap, we clarify the relation between $\beta$ and the continuous phase symmetry breaking.

## Full text

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## Figures

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## References

59 references — full list in the complete paper: https://tomesphere.com/paper/1904.01743/full.md

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Source: https://tomesphere.com/paper/1904.01743