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Li2分子含时波包动力学的理论研究 总被引:1,自引:1,他引:0
利用含时量子波包方法计算得到了Li2分子的光电子能谱,并运用波包动力学理论对含有不同参量的光电子能谱现象给出了合理的解释.通过分析文中的直观图像,研究了波包的动力学过程.结果表明,泵浦-探测脉冲的延迟时间对光电子能谱的形状有重要的影响;在较短延迟时间下,能谱独特的四峰现象是由光诱导势的产生引起的. 相似文献
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本文主要对IBr分子的飞秒含时光电子能谱进行了模拟计算.运用含时量子波包方法,对不同延迟时间的光电子能谱进行模拟计算与理论分析.应用波包和光诱导势理论,对光电子能谱共同的两峰系特征及多峰现象给予合理解释.光电子能谱的峰值随延迟时间的增加而递减现象,是由于波包在势能面上因分子解离发散,使整个波包在势能曲线上的振荡递减造成的.研究表明:波包的传播是一个能量减弱的过程;跃迁过程中不同电离通道之间的竞争,也对能谱存在一定的影响. 相似文献
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Theoretical Investigation of Femtosecond-Resolved Photoelectron Spectra of the Li2 Molecule 下载免费PDF全文
The time-dependent quantum wave packet method is used to investigate the dynamics for the Li2 molecule, and the time-resolved photoelectron spectra (TRPES) of the Li2 molecule are calculated. At the short delay time, the particular phenomenon of TRPES with four peaks is qualitatively interpreted in a dressed state picture by analyzing wave packet motion on light-induced potential (LIP). The significant difference in the electronic structure of E1∑g^+ between the inner and outer turning points has an impact on the TRPES. The control for the first excited state A1∑u^+ of the initial wave packet is discussed. 相似文献
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本文主要对IBr分子的飞秒含时光电子能谱进行了模拟计算.运用含时量子波包方法,对不同延迟时间的光电子能谱进行模拟计算与理论分析.应用波包和光诱导势理论,对光电子能谱共同的两峰系特征及多峰现象给予合理解释.光电子能谱的峰值随延迟时间的增加而递减现象,是由于波包在势能面上因分子解离发散,使整个波包在势能曲线上的振荡递减造成的.研究表明:波包的传播是一个能量减弱的过程;跃迁过程中不同电离通道之间的竞争,也对能谱存在一定的影响. 相似文献
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将辛算法应用于准经典轨线理论,模拟了Ba HF反应在扩展的London-Eyring-Polanyi-Sato (LEPS)势能面上的动力学行为.比较哈密顿体系在RK4-AMH4积分,四阶辛积分,六阶辛积分下的总能量守恒情况,结果表明六阶辛算法能最好地保持反应体系的能量守恒,且用时间最短,能够很好地节省计算资源.得到的六阶辛算法下生成物BaF的振动分布高于以前计算的结果,进一步证明六阶辛算法能最好保持能量守恒的特点. 相似文献
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利用含时量子波包方法计算得到了Li2分子的光电子能谱,并运用波包动力学理论对含有不同参量的光电子能谱现象给出了合理的解释。通过分析文中的直观图像,研究了波包的动力学过程。结果表明,泵浦-探测脉冲的延迟时间对光电子能谱的形状有重要的影响;在较短延迟时间下,能谱独特的四峰现象是由光诱导势的产生引起的。 相似文献
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The time-resolved photoelectron spectra (TRPES) of NaI molecules are calculated by using the time-dependent wave packet method. Two different potential energy curves (adiabatic and diabatic) are adopted in the simulation. The third peak of the photoelectron spectra presented in the adiabatic calculation is induced by the reflection of the wave packet. The oscillating of the wave packet onto the diabatic energy curve is a decreasing process. The comparison of the photoelectron spectra between the two different calculations (adiabatic and diabatic) is presented. 相似文献
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Study on wave packet dynamics of E~1Σ_g~+ state of Li_2 with femtosecond-resolved photoelectron spectra 下载免费PDF全文
Wave packet dynamics of the Li2 molecule are investigated
by using the time-dependent quantum wave packet method, and the
time-resolved photoelectron spectra of the Li2 molecule are
calculated. The time-resolved wave packet theory is used to
reasonably interpret the phenomena of the photoelectron spectra for
different parameters. Our calculation shows that the loss of the
wave packets in the shelf state area of E{ }^1\Sigmag^ +
plays a prominent role in the process of photoionization with the
increase of the delay time. Moreover, the oscillation of the wave
packet on the E{ }^1\Sigmag^ + curve symbolizes a
decreasing process of energy. 相似文献
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