Ultraprecise determination of the 2p radiative lifetime of lithium

Ultraprecise determination of the 2p radiative lifetime of lithium

Summary form only given. An indirect method for experimentally determining atomic lifetimes can be realized through the analysis of long-range vibrational levels of singly excited diatomic molecules. For the case of an alkali-metal homonuclear diatomic molecule, this long-range interaction potential...

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Bibliographic Details
Published in:Summaries of Papers Presented at the Quantum Electronics and Laser Science Conference p. 74
Main Authors: McAlexander, W.I., Abraham, E.R.I., Hulet, R.G.
Format: Conference Proceeding
Language:English
Published: IEEE 1996
Subjects:
Atomic measurements
Bars
Data mining
Ellipsoids
Joining processes
Life testing
Lithium
Physics
Resonance
Uncertainty
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Summary:Summary form only given. An indirect method for experimentally determining atomic lifetimes can be realized through the analysis of long-range vibrational levels of singly excited diatomic molecules. For the case of an alkali-metal homonuclear diatomic molecule, this long-range interaction potential is dominated by a resonant dipole-dipole interaction that has the functional form, V(R)=-C/sub 3//R/sup 3/, where R is the internuclear separation of the two atoms. The C/sub 3/ coefficient can be related directly to the dipole matrix element connecting the ground s and excited p atomic states, and is therefore inversely related to the p-state radiative lifetime. Photoassociative spectroscopy of ultracold /sup 6/Li and /sup 7/Li has enabled us to accurately determine the high-lying vibrational levels of the singly excited A/sup 1//spl Sigma//sub u//sup +/ state of /sup 6/Li/sub 2/ and /sup 7/Li/sub 2/, which can be used to extract C/sub 3/ and determine the lithium 2p atomic lifetime.
ISBN:9781557524447
1557524440