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基于旋转相干光谱的整形飞秒激光转动动力学调控
引用本文:陈 洲,廉振中,胡 湛. 基于旋转相干光谱的整形飞秒激光转动动力学调控[J]. 原子与分子物理学报, 2020, 37(6): 940-945
作者姓名:陈 洲  廉振中  胡 湛
作者单位:吉林大学 原子与分子物理研究所 吉林省先进光场与现代医疗科技创新中心,长春 130012,吉林大学 原子与分子物理研究所 吉林省先进光场与现代医疗科技创新中心,长春 130012,吉林大学 原子与分子物理研究所 吉林省先进光场与现代医疗科技创新中心,长春 130012
基金项目:国家自然科学基金(11374124)
摘    要:我们实验上发展了基于飞秒激光旋转相干光谱的整形飞秒激光转动动力学调控方法,通过脉冲整形技术调控激发脉冲的光谱相位,从而实现对飞秒激光作用下转动态相干激发过程中复原信号及转动布居数的调控. 研究了飞秒激光旋转相干光谱对激光频谱相位的响应机制,突出了飞秒激光频谱相位在气相分子转动态相干激发中的重要作用. 为飞秒激光作用下生物大分子和团簇鉴别及结构探测研究提供了新的参考.

关 键 词:旋转相干光谱;转动动力学;脉冲整形
收稿时间:2020-07-13

Control of rotational dynamics based on rotational coherent spectroscopy using shaped femtosecond laser
CHEN Zhou,LIAN Zhen-Zhong and HU Zhan. Control of rotational dynamics based on rotational coherent spectroscopy using shaped femtosecond laser[J]. Journal of Atomic and Molecular Physics, 2020, 37(6): 940-945
Authors:CHEN Zhou  LIAN Zhen-Zhong  HU Zhan
Affiliation:Institute of Atomic and Molecular Physics, Jilin University, Advanced Light Field and Modern Medical Treatment Science and Technology Innovation Center of Jilin Province, Changchun 130012, China,Institute of Atomic and Molecular Physics, Jilin University, Advanced Light Field and Modern Medical Treatment Science and Technology Innovation Center of Jilin Province, Changchun 130012, China and Institute of Atomic and Molecular Physics, Jilin University, Advanced Light Field and Modern Medical Treatment Science and Technology Innovation Center of Jilin Province, Changchun 130012, China
Abstract:We experimentally develop a method for controlling the rotational dynamics using shaped femtosecond laser pulse based on rotational coherent spectroscopy. The pulse shaping technique is used to modulate the spectral phase of the excitation pulse, and we can achieve the manipulation of the revival signal and rotational population during the rotational coherent excitation. The response mechanism of femtosecond laser rotational coherent spectroscopy to the phase of the laser spectrum is investigated, and the role of the laser spectrum phase in the rotational dynamic coherent excitation of gas phase molecules is highlighted. It provides a new reference for the identification and structure detection of biological macromolecules and clusters for the femtosecond laser pulse.
Keywords:
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