Abstract: The autocorrelation function is an important quantity that can reflect the dynamical properties of the Rydberg wave packet and can be measured in experiments. Applying time-dependent perturbation theory and rotating wave approximation, we derive the autocorrelation function of the double-pulse laser describing the evolution of a Rydberg wave packet of ydrogen atoms in magnetic fields. The resulting expression is written as a sum of the modified Gaussian terms. Each Gaussian term comes from a parent semiclassical closed orbit. It provides a direct explanation and experimentally controllable measurement scheme, which allows us therefore to recognize the closed orbit and to determine its returning time in high precision.
(Multiphoton ionization and excitation to highly excited states)
引用本文:
YU Yong-Li;ZHAO Xia;LI Hong-Yun;GUO Wen-Hao;LIN Sheng-Lu. Autocorrelation Function of Hydrogen Atoms in Magnetic Fields[J]. 中国物理快报, 2006, 23(11): 2948-2951.
YU Yong-Li, ZHAO Xia, LI Hong-Yun, GUO Wen-Hao, LIN Sheng-Lu. Autocorrelation Function of Hydrogen Atoms in Magnetic Fields. Chin. Phys. Lett., 2006, 23(11): 2948-2951.