Trapping, Cooling, and Photodissociation Analysis of State-Selected H2+ Ions Produced by ( 3+1 ) Multiphoton Ionization

arXiv: Atomic Physics Pub Date : 2020-08-19 DOI:10.1103/PhysRevApplied.14.024053
Julian Schmidt, T. Louvradoux, J. Heinrich, N. Sillitoe, M. Simpson, J. Karr, L. Hilico
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引用次数: 12

Abstract

We report on the production of cold, state-selected H$_2^+$ molecular ions in a linear RF trap. The ions are produced by (3+1) resonance-enhanced multi-photon ionisation (REMPI) of H$_2$, and sympathetically cooled by laser-cooled Be$^+$ ions. After demonstrating and characterizing the REMPI process, we use photodissociation by a deep UV laser at 213~nm to verify the high vibrational purity of the produced H$_2^+$ ion samples. Moreover, the large difference between the photodissociation efficiencies of ions created in the $v=0$ and $v=1$ levels provides a way to detect a $v=0 \to 1$ transition. These results pave the way towards high-resolution vibrational spectroscopy of H$_2^+$ for fundamental metrology applications.
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(3+1)多光子电离产生的状态选择H2+离子的俘获、冷却和光解分析
我们报道了在线性射频阱中产生冷的、状态选择的H$_2^+$分子离子。离子由H$_2$的(3+1)共振增强多光子电离(REMPI)产生,并由激光冷却Be$^+$离子共冷。在演示和表征REMPI过程后,我们利用213~nm深紫外激光光解,验证了所制备的H$_2^+$离子样品的高振动纯度。此外,在$v=0$和$v=1$能级上产生的离子光解效率之间的巨大差异提供了一种检测$v=0 \到1$跃迁的方法。这些结果为H$_2^+$的高分辨率振动光谱用于基础计量应用铺平了道路。
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arXiv: Atomic Physics
arXiv: Atomic Physics
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