Characterization of a Static Magnetic Field with Two-Photon Rotational Spectroscopy of Cold Trapped HD+

F. Constantin
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Abstract

Two-photon rotational spectroscopy of cold trapped HD+ ions may be exploited for characterization of the magnitude and orientation of a static magnetic field in the ion trap. The experimental setup and the approach for calibration of the magnetic field vector are described. A sensitivity at the 10−11 T level may be reached with Zeeman spectroscopy of a hyperfine component of the $(\mathrm{v},\mathrm{L}) =(0,0)\rightarrow(0,2)$ transition. The orientation of a magnetic field with a magnitude at the $1\ \mu \mathrm{T}$ level may be characterized with an uncertainty better than 30 mrad.
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冷阱HD+的双光子旋转光谱表征静态磁场
冷阱HD+离子的双光子旋转光谱可以用来表征离子阱中静态磁场的大小和方向。介绍了实验装置和磁场矢量的标定方法。用塞曼光谱对$(\mathrm{v},\mathrm{L}) =(0,0)\rightarrow(0,2)$跃迁的超精细组分可以达到10−11 T水平的灵敏度。量级为$1\ \mu \mathrm{T}$级的磁场的方向可以用优于30 mrad的不确定度来表征。
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