Metastable helium: A new determination of the longest atomic excited-state lifetime

S. S. Hodgman; R. G. Dall; L. J. Byron; K. G.H. Baldwin; S. J. Buckman; A. G. Truscott

doi:10.1103/PhysRevLett.103.053002

Metastable helium: A new determination of the longest atomic excited-state lifetime

S. S. Hodgman, R. G. Dall, L. J. Byron, K. G.H. Baldwin, S. J. Buckman, A. G. Truscott

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Abstract

Exited atoms may relax to the ground state by radiative decay, a process which is usually very fast (of order nanoseconds). However, quantum-mechanical selection rules can prevent such rapid decay, in which case these "metastable" states can have lifetimes of order seconds or longer. In this Letter, we determine experimentally the lifetime of the longest-lived neutral atomic state-the first excited state of helium (the 2S13 metastable state)-to the highest accuracy yet measured. We use laser cooling and magnetic trapping to isolate a cloud of metastable helium (He*) atoms from their surrounding environment, and measure the decay rate to the ground 1S01 state via extreme ultraviolet (XUV) photon emission. This is the first measurement using a virtually unperturbed ensemble of isolated helium atoms, and yields a value of 7870(510) seconds, in excellent agreement with the predictions of quantum electrodynamic theory.

Original language	English
Article number	053002
Journal	Physical Review Letters
Volume	103
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevLett.103.053002
Publication status	Published - 6 Aug 2009

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AU - Hodgman, S. S.

AU - Dall, R. G.

AU - Byron, L. J.

AU - Baldwin, K. G.H.

AU - Buckman, S. J.

AU - Truscott, A. G.

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AB - Exited atoms may relax to the ground state by radiative decay, a process which is usually very fast (of order nanoseconds). However, quantum-mechanical selection rules can prevent such rapid decay, in which case these "metastable" states can have lifetimes of order seconds or longer. In this Letter, we determine experimentally the lifetime of the longest-lived neutral atomic state-the first excited state of helium (the 2S13 metastable state)-to the highest accuracy yet measured. We use laser cooling and magnetic trapping to isolate a cloud of metastable helium (He*) atoms from their surrounding environment, and measure the decay rate to the ground 1S01 state via extreme ultraviolet (XUV) photon emission. This is the first measurement using a virtually unperturbed ensemble of isolated helium atoms, and yields a value of 7870(510) seconds, in excellent agreement with the predictions of quantum electrodynamic theory.

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Metastable helium: A new determination of the longest atomic excited-state lifetime

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