Purcell-enhanced solid-state laser cooling

TL;DR

This paper demonstrates that the Purcell effect can significantly enhance the cooling power of solid-state laser cooling systems, using numerical simulations of a patterned waveguide with ytterbium-doped silica.

Contribution

It introduces a novel approach to improve laser cooling efficiency through photonic structure design leveraging the Purcell effect.

Findings

Enhanced cooling power via Purcell effect in waveguides

Increase in saturation power density and escape efficiency

Robust enhancement despite parasitic absorption

Abstract

We show that Purcell effect can lead to a substantial enhancement in the maximum cooling power for solid-state laser cooling. We numerically demonstrate such enhancement in a patterned slot-waveguide structure using ytterbium-doped silica as the active material. The enhancement arises primarily from the increase of saturation power density and the escape efficiency, and can persist in spite of the presence of parasitic absorption in the structure surrounding the active material. Our results point to a new opportunity in photonic structure design for optical refrigeration.