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Main Authors: Backes, K. M., Elgee, P. K., LeBlanc, K. -J., Fancher, C. T., Meyer, D. H., Kunz, P. D., Malvania, N., Nicolich, K. M., Hill, J. C., Marlow, B. L. Schmittberger, Cox, K. C.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.14704
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author Backes, K. M.
Elgee, P. K.
LeBlanc, K. -J.
Fancher, C. T.
Meyer, D. H.
Kunz, P. D.
Malvania, N.
Nicolich, K. M.
Hill, J. C.
Marlow, B. L. Schmittberger
Cox, K. C.
author_facet Backes, K. M.
Elgee, P. K.
LeBlanc, K. -J.
Fancher, C. T.
Meyer, D. H.
Kunz, P. D.
Malvania, N.
Nicolich, K. M.
Hill, J. C.
Marlow, B. L. Schmittberger
Cox, K. C.
contents Rydberg atom electric field sensors are tunable quantum sensors that can perform sensitive radio frequency (RF) measurements. Their qualities have piqued interest at longer wavelengths where their small size compares favorably to impedance-matched antennas. Here, we compare the signal detection sensitivity of cm-scale Rydberg sensors to similarly sized room-temperature electrically small antennas with active and passive receiver backends. We present and analyze effective circuit models for each sensor type, facilitating a fair sensitivity comparison for cm-scale sensors. We calculate that contemporary Rydberg sensor implementations are less sensitive than unmatched antennas with active amplification. However, we find that idealized Rydberg sensors operating with a maximized atom number and at the standard quantum limit may perform well beyond the capabilities of antenna-based sensors at room temperature, the sensitivities of both lying below typical atmospheric background noise.
format Preprint
id arxiv_https___arxiv_org_abs_2408_14704
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Performance of Antenna-based and Rydberg Quantum RF Sensors in the Electrically Small Regime
Backes, K. M.
Elgee, P. K.
LeBlanc, K. -J.
Fancher, C. T.
Meyer, D. H.
Kunz, P. D.
Malvania, N.
Nicolich, K. M.
Hill, J. C.
Marlow, B. L. Schmittberger
Cox, K. C.
Atomic Physics
Quantum Physics
Rydberg atom electric field sensors are tunable quantum sensors that can perform sensitive radio frequency (RF) measurements. Their qualities have piqued interest at longer wavelengths where their small size compares favorably to impedance-matched antennas. Here, we compare the signal detection sensitivity of cm-scale Rydberg sensors to similarly sized room-temperature electrically small antennas with active and passive receiver backends. We present and analyze effective circuit models for each sensor type, facilitating a fair sensitivity comparison for cm-scale sensors. We calculate that contemporary Rydberg sensor implementations are less sensitive than unmatched antennas with active amplification. However, we find that idealized Rydberg sensors operating with a maximized atom number and at the standard quantum limit may perform well beyond the capabilities of antenna-based sensors at room temperature, the sensitivities of both lying below typical atmospheric background noise.
title Performance of Antenna-based and Rydberg Quantum RF Sensors in the Electrically Small Regime
topic Atomic Physics
Quantum Physics
url https://arxiv.org/abs/2408.14704