Ionization suppression of diatomic molecules in strong laser fields


Autoria(s): Ren Xianghe; 张敬涛; Liu Peng; Wang Yi; 徐至展
Data(s)

2008

Resumo

The ionization rate of molecules in intense laser fields may be much lower than that of atoms with similar binding energy. This phenomenon is termed the ionization suppression of molecules and is caused by the molecular inner structure. In this paper, we perform a comprehensive study of the ionization suppression of homonuclear diatomic molecules in intense laser fields of linear and circular polarizations. We find that for linear polarization the total ionization rate and the ionization suppression depend greatly on the molecular alignment, and that for circular polarization the ionization suppression of molecules in the antibonding (bonding) shells disappears (appears) for laser intensities around 10(15) W/cm(2). We also find that the molecular photoelectron energy spectra are greatly changed by the interference effect, even though the total ionization rate of molecules remains almost the same as that of their companion atoms.

Chinese National Natural Sciences Foundation [10774153, 10523003]; Academic Leaders in Shanghai [07XD14030]; Shanghai Rising-Star program

Identificador

http://ir.siom.ac.cn/handle/181231/560

http://www.irgrid.ac.cn/handle/1471x/9635

Idioma(s)

英语

Fonte

Ren Xianghe;张敬涛;Liu Peng;Wang Yi;徐至展 .,Phys. Rev. A,2008,78(4):43411-

Palavras-Chave #激光技术;激光物理与基本理论 #Comprehensive studies #Diatomic molecules #Homonuclear diatomic molecules #Inner structures #Intense laser fields #Interference effects #Ionization rates #Laser intensities #Linear polarizations #Molecular alignments #Photoelectron energy spectrum #Strong laser fields
Tipo

期刊论文