Quantum-enhanced sensing on optical transitions through finite-range interactions

Author
Johannes Franke
Sean Muleady
Raphael Kaubruegger
Florian Kranzl
Rainer Blatt
Ana Maria Rey
Manoj Joshi
Christian Roos
Abstract

The control over quantum states in atomic systems has led to the most precise optical atomic clocks so far. Their sensitivity is bounded at present by the standard quantum limit, a fundamental floor set by quantum mechanics for uncorrelated particles, which can—nevertheless—be overcome when operated with entangled particles. Yet demonstrating a quantum advantage in real-world sensors is extremely challenging.
Year of Publication
2023
Date Published
2023-08
Journal Title
Nature
Volume
621
Start Page or Article ID
740
DOI
10.1038/s41586-023-06472-z
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JILA PI
Ana Maria Rey
Associated Institutes
Q-SEnSE
JILA-PFC
Journal Article
JILA Topics
Atomic & Molecular Physics
Publication Status
Published
Publication Image
Higher accuracy atomic clocks made of trapped ions could result from linking or “entangling” ions in a new way through a method known as “spin squeezing,” in which one property of an atom is measured more precisely than is usually allowed in quantum mechanics by decreasing the precision in which a complementary property is measure