Laboratoire Francis Perrin, CNRS-URA 2453, CEA, IRAMIS, Service des Photons Atomes et Molécules, F-91191 Gif-sur-Yvette Cedex, France.
J Chem Phys. 2012 Nov 14;137(18):184310. doi: 10.1063/1.4762836.
The Ca(2) → Ca(4s4p(1)P) + Ca(4s(2)(1)S) photodissociation was investigated in a He droplet isolation experiment where the droplets are doped by Ar atoms. Fluorescence spectra associated with the Ca(4s4p(1)P → 4s(2)(1)S) emission were recorded as a function of the average number of Ar atoms per droplet. Three contributions were observed depending on whether the emitting Ca atoms are free, bound to helium atoms or bound to argon atoms. Moreover, the full Ca(4s4p(1)P → 4s(2)(1)S) fluorescence emission was recorded as a function of the wavelength of the photodissociation laser, hence providing the action spectrum of the Ca(2) → Ca(4s4p(1)P) + Ca(4s(2)(1)S) process. The latter spectrum suggests that in He droplets doped by argon, Ca atoms are attracted inside the droplet where they associate as Ca(2). Full analysis of the spectra indicate that the emission of Ca bound to a single Ar atom is redshifted by 94 cm(-1) with respect to the emission of free Ca.
在氦液滴隔离实验中研究了 Ca(2) → Ca(4s4p(1)P) + Ca(4s(2)(1)S) 的光解,其中液滴被 Ar 原子掺杂。记录了与 Ca(4s4p(1)P → 4s(2)(1)S) 发射相关的荧光光谱,作为每个液滴中 Ar 原子的平均数量的函数。观察到了三种贡献,具体取决于发射 Ca 原子是自由的、与氦原子结合的还是与氩原子结合的。此外,还记录了 Ca(4s4p(1)P → 4s(2)(1)S) 荧光发射的全谱作为光解激光波长的函数,从而提供了 Ca(2) → Ca(4s4p(1)P) + Ca(4s(2)(1)S) 过程的作用光谱。后一光谱表明,在氩掺杂的氦液滴中,Ca 原子被吸引到液滴内部,在那里它们结合形成 Ca(2)。对光谱的全面分析表明,与单个 Ar 原子结合的 Ca 的发射相对于自由 Ca 的发射红移了 94 cm(-1)。