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Measurement of a helium tune-out frequency: an independent test of quantum electrodynamics

B. M. Henson, J. A. Ross, Kieran F. Thomas, C. C. N. Kuhn, D. K. Shin, S. S. Hodgman, Yong-Hui Zhang, Li-Yan Tang, G. W. F. Drake, Aaron Bondy, A. G. Truscott, K. G. H. Baldwin

2022Science24 citationsDOIOpen Access PDF

Abstract

Despite quantum electrodynamics (QED) being one of the most stringently tested theories underpinning modern physics, recent precision atomic spectroscopy measurements have uncovered several small discrepancies between experiment and theory. One particularly powerful experimental observable that tests QED independently of traditional energy level measurements is the “tune-out” frequency, where the dynamic polarizability vanishes and the atom does not interact with applied laser light. In this work, we measure the tune-out frequency for the 2 3 S 1 state of helium between transitions to the 2 3 P and 3 3 P manifolds and compare it with new theoretical QED calculations. The experimentally determined value of 725,736,700(260) megahertz differs from theory [725,736,252(9) megahertz] by 1.7 times the measurement uncertainty and resolves both the QED contributions and retardation corrections.

Topics & Concepts

PhysicsPolarizabilityObservableHelium atomLamb shiftQuantum mechanicsQuantum electrodynamicsHeliumMeasure (data warehouse)Atomic physicsSigmaWeak measurementSpectroscopyAtom (system on chip)QuantumElectronEmbedded systemMoleculeComputer scienceDatabaseCold Atom Physics and Bose-Einstein CondensatesAtomic and Molecular PhysicsAtomic and Subatomic Physics Research
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