激光光谱法测定⁶He核电荷半径。

Laser spectroscopic determination of the 6He nuclear charge radius.

作者信息

Wang L-B, Mueller P, Bailey K, Drake G W F, Greene J P, Henderson D, Holt R J, Janssens R V F, Jiang C L, Lu Z-T, O'Connor T P, Pardo R C, Rehm K E, Schiffer J P, Tang X D

机构信息

Physics Division, Argonne National Laboratory, Argonne, Illinois 60439, USA.

出版信息

Phys Rev Lett. 2004 Oct 1;93(14):142501. doi: 10.1103/PhysRevLett.93.142501. Epub 2004 Sep 27.

DOI:10.1103/PhysRevLett.93.142501

PMID:15524784

Abstract

We have performed precision laser spectroscopy on individual 6He (t(1/2)=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(3)S1-3(3)P2 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.

摘要

我们对磁光阱中被俘获并冷却的单个(^6He)（半衰期(t_{1/2}=0.8)秒）原子进行了精密激光光谱实验，测量了(^6He)与(^4He)在(2(^3)S_1 - 3(^3)P_2)跃迁上的同位素位移为(43194.772 \pm 0.056)兆赫兹。基于此测量结果和原子理论，首次通过一种独立于核模型的方法确定了(^6He)的核电荷半径为(2.054 \pm 0.014)飞米。将该结果与多个核结构计算所预测的值进行了比较，并检验了它们对这个松散束缚晕核的表征能力。