Probing the Electronic Manifold of MgCl with Millimeter-Wave Spectroscopy and Theory: (3)²Σ⁺ and (4)²Σ⁺ States.

IF 2.7 2区化学 Q3 CHEMISTRY, PHYSICAL

The Journal of Physical Chemistry A Pub Date : 2024-11-13 DOI:10.1021/acs.jpca.4c05458

T J Herman, R Ravi, M S Schuurman, N J DeYonker, R W Field, L M Ziurys

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Abstract

The millimeter/submillimeter spectrum of magnesium chloride (MgCl) has been observed in two new electronic excited states, (3)²Σ⁺ and (4)²Σ⁺, using direct absorption methods. The molecule was synthesized in a mixture of Cl₂, argon, and magnesium vapor. For the (3)²Σ⁺ state, multiple rotational transitions were measured in the v = 0 level for all six isotopologues (²⁴Mg³⁵Cl, ²⁴Mg³⁷Cl, ²⁵Mg³⁵Cl, ²⁵Mg³⁷Cl, ²⁶Mg³⁵Cl, and ²⁶Mg³⁷Cl), as well as up to v = 13 for ²⁴Mg³⁵Cl. For the (4)²Σ⁺ state, less intense spectra were recorded for ²⁴Mg³⁵Cl (v = 0-2). Equilibrium rotational parameters were determined for both states for ²⁴Mg³⁵Cl, as well as rotational constants and ²⁵Mg hyperfine parameters for the other isotopologues. A perturbation was observed between rotational levels of the two states due to an avoided crossing. Computations were also carried out at the CASPT2 and MRCISD+Q levels, and the resulting bond lengths for (3)²Σ⁺ and (4)²Σ⁺ states agree well with the experimental values of r_e = 2.536 and 2.361 Å. The computations show that the (3)²Σ⁺ state has a double-well potential; however, the state behaves as a single well with unperturbed vibrational levels up to v = 13 due to nonadiabatic interactions with the (4)²Σ⁺ state.

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用毫米波光谱和理论探测氯化镁的电子态：(3)2Σ+ 和 (4)2Σ+ 态。

利用直接吸收法观测到了氯化镁（MgCl）在两个新的电子激发态 (3)2Σ+ 和 (4)2Σ+ 中的毫米/亚毫米波谱。该分子是在 Cl2、氩气和镁蒸汽的混合物中合成的。对于 (3)2Σ+ 状态，在 v = 0 水平测量到了所有六种同位素（24Mg35Cl、24Mg37Cl、25Mg35Cl、25Mg37Cl、26Mg35Cl 和 26Mg37Cl）的多个旋转转变，以及 24Mg35Cl 的高达 v = 13 的旋转转变。对于 (4)2Σ+ 状态，24Mg35Cl（v = 0-2）的光谱强度较低。测定了 24Mg35Cl 两种状态的平衡旋转参数，以及其他同位素的旋转常数和 25Mg 超细参数。由于避免了交叉，在这两种状态的旋转水平之间观察到了扰动。计算还在 CASPT2 和 MRCISD+Q 水平上进行，得出的 (3)2Σ+ 和 (4)2Σ+ 状态的键长与实验值 re = 2.536 和 2.361 Å 非常吻合。计算结果表明，(3)2Σ+ 状态具有双阱势能；然而，由于与 (4)2Σ+ 状态的非绝热相互作用，该状态表现为单阱，其未受扰动的振动水平可达 v = 13。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

The Journal of Physical Chemistry A 化学-物理：原子、分子和化学物理

CiteScore

5.20

自引率

10.30%

发文量

922

审稿时长

1.3 months

期刊介绍： The Journal of Physical Chemistry A is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, and chemical physicists.