Vibrational transition spectra of H2+ in a strong magnetic field

doi:10.1088/1674-1056/22/9/093101

Abstract Vibrational transition spectra of H₂⁺ in an ultra-strong magnetic field are determined. The validity of Born-Oppenheimer approximation is analyzed based on one-center method and B-spline basis sets. It is shown that Born-Oppenheimer approximation is reliable for the investigation on the ground state and low excited states of H₂⁺ subjected to the strong magnetic field. Furthermore, it is found that the vibrational transition spectra from 1σ_g, 1π_u, and 1δ_g states lie in infrared, visible, and ultraviolet ranges with increasing magnetic field strength.

Keywords: B-spline basis one-center method Born-Oppenheimer approximation vibrational transition spectra

Received: 27 February 2013
Revised: 02 April 2013
Accepted manuscript online:

PACS:	31.15.A-	(Ab initio calculations)
	33.15.-e	(Properties of molecules)
	33.20.Tp	(Vibrational analysis)

Fund: Project Supported by the National Basic Research Program of China (Grant No. 2010CB832803).

Corresponding Authors: Shi Ting-Yun
E-mail: tyshi@wipm.ac.cn

Cite this article:

Hu Shi-Lin (胡师林), Shi Ting-Yun (史庭云) Vibrational transition spectra of H₂⁺ in a strong magnetic field 2013 Chin. Phys. B 22 093101

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Vibrational transition spectra of H₂⁺ in a strong magnetic field