Laser Spectroscopic Determination of the 6He Nuclear Charge Radius

C. L. Jiang; D. Henderson; G. W. F. Drake; J. P. Greene; J. P. Schiffer; K. Bailey; K. E. Rehm; L.-B. Wang; P. Mueller; R. C. Pardo

arxiv: nucl-ex/0408008 · v1 · pith:5Q5BEBMInew · submitted 2004-08-08 · ⚛️ nucl-ex

Laser Spectroscopic Determination of the 6He Nuclear Charge Radius

L.-B. Wang , P. Mueller , K. Bailey , G. W. F. Drake , J. P. Greene , D. Henderson , R. J. Holt , R. V. F. Janssens

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C. L. Jiang Z.-T. Lu T. P. O'Connor R. C. Pardo K. E. Rehm J. P. Schiffer X. D. Tang

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keywords nuclearchargelaserradiusabilityatomicatomsbound

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We have performed precision laser spectroscopy on individual 6He (t1/2 = 0.8 s) atoms confined and cooled in a magneto-optical trap, and measured the isotope shift between 6He and 4He to be 43,194.772 +/- 0.056 MHz for the 2 3S1 - 3 3P2 transition. Based on this measurement and atomic theory, the nuclear charge radius of 6He is determined, for the first time in a method independent of nuclear models, to be 2.054 +/- 0.014 fm. The result is compared with the values predicted by a number of nuclear structure calculations, and tests their ability to characterize this loosely bound, halo nucleus.

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Laser Spectroscopic Determination of the 6He Nuclear Charge Radius

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