Perfetto E, Sangalli D, Marini A, Stefanucci G
CNR-ISM, Division of Ultrafast Processes in Materials (FLASHit) , Area della Ricerca di Roma 1, Via Salaria Km 29.3 , I-00016 Monterotondo Scalo , Italy.
Dipartimento di Fisica , Università di Roma Tor Vergata , Via della Ricerca Scientifica 1 , 00133 Rome , Italy.
J Phys Chem Lett. 2018 Mar 15;9(6):1353-1358. doi: 10.1021/acs.jpclett.8b00025. Epub 2018 Mar 6.
The early-stage density oscillations of the electronic charge in molecules irradiated by an attosecond XUV pulse takes place on femto- or subfemtosecond time scales. This ultrafast charge migration process is a central topic in attoscience because it dictates the relaxation pathways of the molecular structure. A predictive quantum theory of ultrafast charge migration should incorporate the atomistic details of the molecule, electronic correlations, and the multitude of ionization channels activated by the broad-bandwidth XUV pulse. We propose a first-principles nonequilibrium Green's function method fulfilling all three requirements and apply it to a recent experiment on the photoexcited phenylalanine amino acid. Our results show that dynamical correlations are necessary for a quantitative overall agreement with the experimental data. In particular, we are able to capture the transient oscillations at frequencies 0.15 and 0.30 PHz in the hole density of the amine group as well as their suppression and the concomitant development of a new oscillation at frequency 0.25 PHz after ∼14 fs.
阿秒极紫外(XUV)脉冲辐照分子时,分子中电子电荷的早期密度振荡发生在飞秒或亚飞秒时间尺度上。这种超快电荷迁移过程是阿秒科学的核心主题,因为它决定了分子结构的弛豫路径。超快电荷迁移的预测性量子理论应纳入分子的原子细节、电子关联以及由宽带XUV脉冲激活的众多电离通道。我们提出了一种满足所有这三个要求的第一性原理非平衡格林函数方法,并将其应用于最近一项关于光激发苯丙氨酸氨基酸的实验。我们的结果表明,动力学关联对于与实验数据达成定量的整体一致是必要的。特别是,我们能够捕捉到胺基团空穴密度中频率为0.15和0.30拍赫兹(PHz)的瞬态振荡,以及它们在约14飞秒后受到的抑制和伴随出现的频率为0.25 PHz的新振荡的发展。
