Gottfried Jennifer L
Department of Chemistry, University of Chicago, Chicago, IL 60637, USA.
Philos Trans A Math Phys Eng Sci. 2006 Nov 15;364(1848):2917-28; discussion 2828-9. doi: 10.1098/rsta.2006.1868.
Since the Royal Society Discussion Meeting on H3+ in 2000, the laboratory spectroscopy of H3+ has entered a new regime. For the first time, transitions of H3+ above the barrier to linearity have been observed. A highly sensitive near-infrared spectrometer based on a titanium:sapphire laser and incorporating a dual-beam, double-modulation technique with bidirectional optical multi-passing has been developed in order to detect these transitions, which are more than 4600 times weaker than the fundamental band. We discuss our recent work on the 2v1 + 2v2(2) <-- 0, 3v1 + v2(1) <-- 0, v1 + 4v2(2) <-- 0, v1 + 4V2(4) <-- 0 and 2v1 + 3v2(1) <-- 0 combination bands and the 5v2(1) <-- 0, 5v2(3) <-- 0, 52(5) <-- 0 and 6v2(2) <-- 0 overtone bands. Experimentally determined energy levels provide a critical test of ab initio calculations in this challenging energy regime (greater than 10,000 cm(-1)). By comparing the experimental energy levels and theoretical energy levels from ab initio calculations in which the adiabatic and relativistic corrections are incorporated, the extent of higher-order effects such as non-adiabatic and radiative corrections is revealed.
自2000年皇家学会关于H₃⁺的研讨会以来,H₃⁺的实验室光谱学进入了一个新的阶段。首次观测到了H₃⁺高于线性化势垒的跃迁。为了检测这些比基频带弱4600多倍的跃迁,已经研制出了一种基于钛宝石激光器的高灵敏度近红外光谱仪,该光谱仪采用了双光束、双调制技术以及双向光学多次通过技术。我们讨论了我们最近在2v₁ + 2v₂(2) ← 0、3v₁ + v₂(1) ← 0、v₁ + 4v₂(2) ← 0、v₁ + 4V₂(4) ← 0和2v₁ + 3v₂(1) ← 0组合带以及5v₂(1) ← 0、5v₂(3) ← 0、52(5) ← 0和6v₂(2) ← 0泛音带上所做的工作。实验测定的能级为这一具有挑战性的能量区域(大于10,000 cm⁻¹)中的从头算计算提供了关键检验。通过比较包含绝热和相对论修正的从头算计算得到的实验能级和理论能级,揭示了诸如非绝热和辐射修正等高阶效应的程度。
