Experimental and theoretical investigations of absolute optical oscillator strengths for valence excitations of nitric oxide

doi:10.1088/1009-1963/11/11/311

Abstract

Abstract The absolute optical oscillator strength density spectra of nitric oxide in the energy region of 5.0－22.0 eV have been measured by a high-resolution fast-electron energy loss spectrometer. With the calculated results obtained by the multiscattering self-consistent-field method and channel characteristics, the strongly overlapped spectra in the energy region of 7.5－9.3 eV have been analysed and the corresponding partially vibrationally resolved optical oscillator strengths have been estimated from the experimental spectra.

Keywords: oscillator strength energy loss vacuum ultraviolet spectrum

Received: 18 March 2002
Revised: 28 May 2002
Accepted manuscript online:

PACS:	33.70.Ca	(Oscillator and band strengths, lifetimes, transition moments, and Franck-Condon factors)
	31.15.Ne
	34.80.Gs	(Molecular excitation and ionization)
	33.20.Tp	(Vibrational analysis)

Fund: Project supported by the National Natural Science Foundation of China (Grant Nos 10131040, 10004010) and the Youth Foundation of University of Science and Technology of China.

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Zhu Lin-Fan (朱林繁), Zhong Zhi-Ping (钟志萍), Yuan Zhen-Sheng (苑震生), Zhang Wei-Hua (张卫华), Liu Xiao-Jing (刘小井), Jiang Xi-Man (江锡满), Xu Ke-Zun (徐克尊), Li Jia-Ming (李家明) Experimental and theoretical investigations of absolute optical oscillator strengths for valence excitations of nitric oxide 2002 Chinese Physics 11 1149

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Experimental and theoretical investigations of absolute optical oscillator strengths for valence excitations of nitric oxide

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