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Main Authors: Jbara, Moamen, Zgadzai, Oleg, Harneit, Wolfgang, Blank, Aharon
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.15159
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author Jbara, Moamen
Zgadzai, Oleg
Harneit, Wolfgang
Blank, Aharon
author_facet Jbara, Moamen
Zgadzai, Oleg
Harneit, Wolfgang
Blank, Aharon
contents The quest to enhance the sensitivity of electron spin resonance (ESR) is an ongoing challenge. One potential strategy involves increasing the frequency, for instance, moving from Q-band (approximately 35 GHz) to W-band (approximately 94 GHz). However, this shift typically results in higher transmission and switching losses, as well as increased noise in signal amplifiers. In this work, we address these shortcomings by employing a W-band probehead integrated with a cryogenic low-noise amplifier (LNA) and a microresonator. This configuration allows us to position the LNA close to the resonator, thereby amplifying the acquired ESR signal with minimal losses. Furthermore, when operated at cryogenic temperatures, the LNA exhibits unparalleled noise levels that are significantly lower than those of conventional room temperature LNAs. We detail the novel probehead design and provide some experimental results at room temperature as well as cryogenic temperatures for representative paramagnetic samples. We find, for example, that spin sensitivity of ~3*10^5 spins/sqrt(Hz) is achieved for a sample of phosphorus doped 28Si, even for sub-optimal sample geometry with potential improvement to <10^3 spins/sqrt(Hz) in more optimal scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2410_15159
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Cryogenic W-band Electron Spin Resonance Probehead with an Integral Cryogenic Low Noise Amplifier
Jbara, Moamen
Zgadzai, Oleg
Harneit, Wolfgang
Blank, Aharon
Chemical Physics
The quest to enhance the sensitivity of electron spin resonance (ESR) is an ongoing challenge. One potential strategy involves increasing the frequency, for instance, moving from Q-band (approximately 35 GHz) to W-band (approximately 94 GHz). However, this shift typically results in higher transmission and switching losses, as well as increased noise in signal amplifiers. In this work, we address these shortcomings by employing a W-band probehead integrated with a cryogenic low-noise amplifier (LNA) and a microresonator. This configuration allows us to position the LNA close to the resonator, thereby amplifying the acquired ESR signal with minimal losses. Furthermore, when operated at cryogenic temperatures, the LNA exhibits unparalleled noise levels that are significantly lower than those of conventional room temperature LNAs. We detail the novel probehead design and provide some experimental results at room temperature as well as cryogenic temperatures for representative paramagnetic samples. We find, for example, that spin sensitivity of ~3*10^5 spins/sqrt(Hz) is achieved for a sample of phosphorus doped 28Si, even for sub-optimal sample geometry with potential improvement to <10^3 spins/sqrt(Hz) in more optimal scenarios.
title Cryogenic W-band Electron Spin Resonance Probehead with an Integral Cryogenic Low Noise Amplifier
topic Chemical Physics
url https://arxiv.org/abs/2410.15159