Three-dimensional ab initio dipole moment surfaces and stretching vibrational band intensities of the XH3 molecules

doi:10.1088/1009-1963/14/10/006

Abstract

Abstract Stretching vibrational band intensities of XH₃ (X=N, Sb) molecules are investigated employing three-dimensional dipole moment surfaces combined with the local mode Hamiltonian model.The dipole moment surfaces of NH₃ and SbH₃ are calculated with the density functional theory and at the correlated MP2 level,respectively. The calculated band intensities are in good agreement with the available experimental data. The contribution to the band intensities from the different terms in the polynomial expansion of the dipole moments of four group V hydrides (NH₃, PH₃,AsH₃ and SbH₃) are discussed. It is concluded that the breakdown of the bond dipole approximation must be considered. The intensity “borrowing” effect due to the wave function mixing among the stretching vibrational states is found to be less significant for the molecules that reach the local mode limit.

Keywords: overtone dipole moment infrared band intensity local mode

Received: 10 March 2005
Revised: 08 May 2005
Accepted manuscript online:

PACS:	31.15.A-	(Ab initio calculations)
	33.15.Kr	(Electric and magnetic moments (and derivatives), polarizability, and magnetic susceptibility)
	31.15.E-
	31.15.xp	(Perturbation theory)
	33.20.Tp	(Vibrational analysis)
	33.70.Fd	(Absolute and relative line and band intensities)

Fund: Project supported by the National Natural Science Foundation of China (Grant Nos 20103007 and 20473079).

Cite this article:

Liu An-Wen (刘安雯), Hu Shui-Ming (胡水明), Ding Yun (丁昀), Zhu Qing-Shi (朱清时) Three-dimensional ab initio dipole moment surfaces and stretching vibrational band intensities of the XH₃ molecules 2005 Chinese Physics 14 1946

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Three-dimensional ab initio dipole moment surfaces and stretching vibrational band intensities of the XH₃ molecules

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