Laboratoire Francis Perrin, CNRS-URA 2453, CEA, IRAMIS, Service des Photons Atomes et Molécules, F-91191 Gif-sur-Yvette Cedex, France.
J Chem Phys. 2010 Aug 7;133(5):054307. doi: 10.1063/1.3464489.
Ba(Ar)(approximately 750) clusters were generated by associating the supersonic expansion and the pick-up techniques. A femtosecond pump (266.3 nm)-probe (792 or 399.2 nm) experiment was performed to document the dynamics of electronically excited barium within the very multidimensional environment of the argon cluster. Barium was excited in the vicinity of the 6s9p (1)P state and probed by ionization. The velocity imaging technique was used to monitor the energy distribution of photoelectrons and photoions as a function of the delay time between the pump and the probe pulses. A complex dynamics was revealed, which can be interpreted as a sequence/superposition of elementary processes, one of which is the ejection of barium out of the cluster. The latter has an efficiency, which starts increasing 5 ps after the pump pulse, the largest ejection probability being at 10 ps. The ejection process lasts at a very long time, up to 60 ps. A competing process is the partial solvation of barium in low lying electronic states. Both processes are preceded by a complex electronic relaxation, which is not fully unraveled here, the present paper being the first one in a series.
通过将超声速膨胀和吸积技术结合,生成了约 750 个 Ba(Ar)簇。进行了飞秒泵(266.3nm)-探针(792nm 或 399.2nm)实验,以记录在氩团簇的非常多维环境中电子激发钡的动力学。在 6s9p(1)P 态附近激发钡,并通过电离进行探测。速度成像技术用于监测光电离和光电子的能量分布作为泵浦脉冲和探针脉冲之间的延迟时间的函数。揭示了一种复杂的动力学,它可以解释为一系列/叠加的基本过程,其中之一是钡从团簇中逸出。后者的效率在泵浦脉冲后 5ps 开始增加,最大逸出概率出现在 10ps。逸出过程持续很长时间,可达 60ps。一个竞争过程是钡在低电子态下的部分溶剂化。这两个过程都以前面有一个复杂的电子弛豫,这里没有完全揭示,本论文是一系列论文中的第一篇。