碲化氢（TeH）和碲化锂（TeLi）电子态与光谱的实验和理论研究

Setzer K. D., Fink E. H., Alekseyev A. B., Liebermann H.-P., Buenker R. J.

Fachbereich 9-Physikalische Chemie, Bergische Universität-Gesamthochschule Wuppertal, Wuppertal, 42097, Federal Republic of Germany

J Mol Spectrosc. 2001 Apr;206(2):181-197. doi: 10.1006/jmsp.2001.8301.

Gas-phase emission spectra of the hitherto unknown free radical TeLi have been measured in the NIR range with a Fourier-transform spectrometer. The emissions were observed from a fast flow system in which tellurium vapor in argon carrier gas was passed through a microwave discharge and mixed with lithium vapor in an observation tube. Two systems of blue-degraded bands were measured at high spectral resolution in the ranges 8000-9000 and 5700-6700 cm(-1) and vibrational and rotational analyses were performed. In order to aid in the analysis of the experimental data, a series of relativistic configuration interaction calculations has been carried out to obtain potential curves for the low-lying states of TeLi and the isovalent TeH and also electric dipole transition moments connecting them. As in the TeH system, the ground state of TeLi is found to be X(2)Pi(i), but with a remarkably smaller spin-orbit splitting. The TeLi calculations indicate a strongly bound A(2)Sigma(+) state, while in TeH the analogous state is computed to lie significantly higher at approximately 32 000 cm(-1), and it is strongly predissociated. Based on the theoretical analysis, the observed TeLi band systems are assigned to the transitions A(2)Sigma(+)(A1/2)-->X(1)(2)Pi(3/2)(X(1)3/2) and A(2)Sigma(+)(A1/2)-->X(2)(2)Pi(1/2)(X(2)1/2). Analysis of the spectra has yielded the molecular constants (in cm(-1)) X(1)(2)Pi(3/2):omega(e)=457.49(3), omega(e)x(e)=2.482(9), B(0)=0.408908(8); X(2)(2)Pi(1/2): T(e)=2353.44(3), omega(e)=456.28(4), omega(e)x(e)=2.635(8), B(0)=0.414954(8), p(0)=1.00637(4); A(2)Sigma(+): T(e)=8574.64(2), omega(e)=437.81(3), omega(e)x(e)=2.581(8), B(0)=0.423903(8), p(0)=-0.19915(2), where the numbers in parentheses are the standard deviations of the parameters. Comparison of the isovalent TeLi and TeH systems emphasizes that the difference in bonding character (ionic in TeLi vs covalent in TeH) is responsible for qualitative differences in the electronic spectra of these two molecules. Copyright 2001 Academic Press.

利用傅里叶变换光谱仪在近红外波段测量了迄今未知的自由基碲化锂（TeLi）的气相发射光谱。发射光谱是在一个快速流动系统中观测到的，在该系统中，氩载气中的碲蒸气通过微波放电，然后在观测管中与锂蒸气混合。在8000 - 9000和5700 - 6700 cm⁻¹范围内以高光谱分辨率测量了两个蓝移带系，并进行了振动和转动分析。为了辅助分析实验数据，进行了一系列相对论组态相互作用计算，以获得TeLi及其等电子体TeH的低能态的势能曲线，以及连接它们的电偶极跃迁矩。与TeH系统一样，TeLi的基态被发现是X²Πᵢ，但自旋 - 轨道分裂明显更小。TeLi的计算表明存在一个强束缚的A²Σ⁺态，而在TeH中，类似的态计算得出位于约32000 cm⁻¹处明显更高的位置，并且它强烈预解离。基于理论分析，观测到的TeLi带系被归属于跃迁A²Σ⁺(A1/2)-->X¹²Π₃/₂(X¹3/2)和A²Σ⁺(A1/2)-->X²²Π₁/₂(X²1/2)。光谱分析得出了分子常数（单位为cm⁻¹）：X¹²Π₃/₂：ωₑ = 457.49(3)，ωₑχₑ = 2.482(9)，B(0) = 0.408908(8)；X²²Π₁/₂：Tₑ = 2353.44(3)，ωₑ = 456.28(4)，ωₑχₑ = 2.635(8)，B(0) = 0.414954(8)，p(0) = 1.00637(4)；A²Σ⁺：Tₑ = 8574.64(2)，ωₑ = 437.81(3)，ωₑχₑ = 2.581(8)，B(0) = 0.423903(8)，p(0) = -0.19915(2)，其中括号内的数字是参数的标准偏差。等电子体TeLi和TeH系统的比较强调，键合性质的差异（TeLi中为离子键，TeH中为共价键）是这两个分子电子光谱定性差异的原因。版权所有2001年学术出版社。