2022
DOI: 10.48550/arxiv.2203.07250
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Snowmass 2021: Quantum Sensors for HEP Science -- Interferometers, Mechanics, Traps, and Clocks

Abstract: A wide range of quantum sensing technologies are rapidly being integrated into the experimental portfolio of the high energy physics community. Here we focus on sensing with atomic interferometers; mechanical devices read out with optical or microwave fields; precision spectroscopic methods with atomic, nuclear, and molecular systems; and trapped atoms and ions. We give a variety of detection targets relevant to particle physics for which these systems are uniquely poised to contribute. This includes experimen… Show more

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Cited by 1 publication
(1 citation statement)
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“…The practical relevance of our findings is still limited, given the currently available coherence of quantum clocks [33]. On the other hand, our results clearly show that gravitational time dilation may indeed represent a resource for quantum metrology, and provide a novel fundamental avenue to test the interface between quantum theory and gravity.…”
Section: Mach-zehnder Interferometermentioning
confidence: 75%
“…The practical relevance of our findings is still limited, given the currently available coherence of quantum clocks [33]. On the other hand, our results clearly show that gravitational time dilation may indeed represent a resource for quantum metrology, and provide a novel fundamental avenue to test the interface between quantum theory and gravity.…”
Section: Mach-zehnder Interferometermentioning
confidence: 75%