Near-threshold structure of molecular hydrogen at the 1s + 2l dissociation limit

High Resolution Spectroscopy Pub Date : 1900-01-01 DOI:10.1364/hrs.1993.tha3
E. Eyler, B. F. Catching, N. Melikechi
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引用次数: 2

Abstract

High-resolution measurements of molecular structure very near a dissociation limit can be used both to probe long-range atomic interactions and to make accurate determinations of dissociation energies. Our research group has investigated the H(1s) + H(2s or 2p) dissociation limit in molecular hydrogen using optical double resonance with single-mode lasers. Fig. 1 shows the general scheme of the experiment. Our measurements of bound states in H2, reported in Ref. 1, have now been extended to include the adjoining continuum and the other stable isotopomers, HD and D2. The most weakly bound levels to which transitions are seen are bound by only about 0.03 cm−1, equivalent to about 40 mK. Very sharp continuum resonances are also observed in the region just above threshold.
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分子氢在1s + 2l解离极限下的近阈值结构
非常接近解离极限的分子结构的高分辨率测量既可以用来探测远距离原子相互作用,也可以用来精确测定解离能。本课课组利用单模激光光学双共振研究了氢分子中H(1s) + H(2s或2p)的解离极限。实验总体方案如图1所示。我们对H2束缚态的测量,在Ref. 1中报道,现在已经扩展到包括相邻连续体和其他稳定同位素,HD和D2。能观察到跃迁的最弱束缚能级仅受约0.03 cm−1束缚,相当于约40 mK。在略高于阈值的区域也观察到非常尖锐的连续共振。
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High Resolution Spectroscopy
High Resolution Spectroscopy
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