Related papers: A highly stable and fully tunable open microcavity platform at cryogenic temperatures

A highly stable and fully tunable open microcavity platform at cryogenic temperatures

URL: http://arxiv.org/abs/2212.11601v1
Date: Thu, 22 Dec 2022 10:53:46 GMT
Title: A highly stable and fully tunable open microcavity platform at cryogenic temperatures
Authors: Maximilian Pallmann, Timon Eichhorn, Julia Benedikter, Bernardo Casabone, Thomas H\"ummer, David Hunger
Abstract summary: Open-access microcavities are a powerful tool to enhance light-matter interactions for solid-state quantum and nano systems. We have developed a fully-tunable, open-access, fiber-based Fabry-P'erot microcavity platform.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Open-access microcavities are a powerful tool to enhance light-matter interactions for solid-state quantum and nano systems and are key to advance applications in quantum technologies. For this purpose, the cavities should simultaneously meet two conflicting requirements - full tunability to cope with spatial and spectral inhomogeneities of a material, and highest stability under operation in a cryogenic environment to maintain resonance conditions. To tackle this challenge, we have developed a fully-tunable, open-access, fiber-based Fabry-P\'erot microcavity platform which can be operated also under increased noise levels in a closed-cycle cryostat. It comprises custom-designed monolithic micro- and nanopositioning elements with up to mm-scale travel range that achieve a passive cavity length stability at low temperature of only 15 pm rms in a closed-cycle cryostat, and 5 pm in a more quiet flow cryostat. This can be further improved by active stabilization, and even higher stability is obtained under direct mechanical contact between the cavity mirrors, yielding 0:8 pm rms during the quiet phase of the closed-cycle cryo cooler. The platform provides operation of cryogenic cavities with high finesse and small mode volume for strong enhancement of light-matter interactions, opening up novel possibilities for experiments with a great variety of quantum and nano materials.

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