Precision Measurement for Metastable Helium Atoms of the 413 nm Tune-Out Wavelength at Which the Atomic Polarizability Vanishes

B. M. Henson; R. I. Khakimov; R. G. Dall; K. G.H. Baldwin; Li Yan Tang; A. G. Truscott

doi:10.1103/PhysRevLett.115.043004

Precision Measurement for Metastable Helium Atoms of the 413 nm Tune-Out Wavelength at Which the Atomic Polarizability Vanishes

B. M. Henson, R. I. Khakimov, R. G. Dall, K. G.H. Baldwin, Li Yan Tang, A. G. Truscott

Research output: Contribution to journal › Article › peer-review

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Abstract

We present the first measurement for helium atoms of the tune-out wavelength at which the atomic polarizability vanishes. We utilize a novel, highly sensitive technique for precisely measuring the effect of variations in the trapping potential of confined metastable (2S13) helium atoms illuminated by a perturbing laser light field. The measured tune-out wavelength of 413.0938(9stat)(20syst)nm compares well with the value predicted by a theoretical calculation [413.02(9) nm] which is sensitive to finite nuclear mass, relativistic, and quantum electrodynamic effects. This provides motivation for more detailed theoretical investigations to test quantum electrodynamics.

Original language	English
Article number	043004
Journal	Physical Review Letters
Volume	115
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevLett.115.043004
Publication status	Published - 24 Jul 2015

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title = "Precision Measurement for Metastable Helium Atoms of the 413 nm Tune-Out Wavelength at Which the Atomic Polarizability Vanishes",

abstract = "We present the first measurement for helium atoms of the tune-out wavelength at which the atomic polarizability vanishes. We utilize a novel, highly sensitive technique for precisely measuring the effect of variations in the trapping potential of confined metastable (2S13) helium atoms illuminated by a perturbing laser light field. The measured tune-out wavelength of 413.0938(9stat)(20syst)nm compares well with the value predicted by a theoretical calculation [413.02(9) nm] which is sensitive to finite nuclear mass, relativistic, and quantum electrodynamic effects. This provides motivation for more detailed theoretical investigations to test quantum electrodynamics.",

author = "Henson, {B. M.} and Khakimov, {R. I.} and Dall, {R. G.} and Baldwin, {K. G.H.} and Tang, {Li Yan} and Truscott, {A. G.}",

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AU - Dall, R. G.

AU - Baldwin, K. G.H.

AU - Tang, Li Yan

AU - Truscott, A. G.

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AB - We present the first measurement for helium atoms of the tune-out wavelength at which the atomic polarizability vanishes. We utilize a novel, highly sensitive technique for precisely measuring the effect of variations in the trapping potential of confined metastable (2S13) helium atoms illuminated by a perturbing laser light field. The measured tune-out wavelength of 413.0938(9stat)(20syst)nm compares well with the value predicted by a theoretical calculation [413.02(9) nm] which is sensitive to finite nuclear mass, relativistic, and quantum electrodynamic effects. This provides motivation for more detailed theoretical investigations to test quantum electrodynamics.

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Precision Measurement for Metastable Helium Atoms of the 413 nm Tune-Out Wavelength at Which the Atomic Polarizability Vanishes

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