Microwave Technologies in Experiments for Detection of Dark Matter   Axions

Jose R. Navarro-Madrid; Jose Mar\'ia Garc\'ia-Barcel\'o; Alejandro; D\'iaz-Morcillo

arXiv:2404.15926·physics.ins-det·May 1, 2024

Microwave Technologies in Experiments for Detection of Dark Matter Axions

Jose R. Navarro-Madrid, Jose Mar\'ia Garc\'ia-Barcel\'o, Alejandro, D\'iaz-Morcillo

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TL;DR

This paper reviews microwave technologies and resonant cavity designs used in dark matter axion detection experiments, discussing optimization, tuning systems, and future research directions in microwave engineering contributions.

Contribution

It provides a comprehensive overview of microwave techniques and design optimizations specifically tailored for axion detection experiments.

Findings

01

Analysis of resonant cavity design parameters

02

Discussion of frequency tuning systems

03

Identification of microwave engineering research opportunities

Abstract

This article reviews different microwave technologies used in dark matter axion detection experiments with resonant cavities. The general concepts of the experiment are presented and ways to optimize the design parameters of microwave resonators are discussed. Additionally, different frequency tuning systems are described. Finally, research lines where microwave engineering can contribute to this kind of axion detection are presented.

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Taxonomy

TopicsDark Matter and Cosmic Phenomena · Atomic and Subatomic Physics Research · Relativity and Gravitational Theory