Nondipolar photoelectron angular distributions from fixed-in-space N2 molecules

IF 1.5 4区物理与天体物理 Q3 OPTICS Journal of Physics B: Atomic, Molecular and Optical Physics Pub Date : 2024-06-25 DOI:10.1088/1361-6455/ad5893

D V Rezvan, A Pier, S Grundmann, N M Novikovskiy, N Anders, M Kircher, N Melzer, F Trinter, M S Schöffler, T Jahnke, R Dörner and Ph V Demekhin

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Abstract

We investigate experimentally and theoretically the N 1s photoionization of fixed-in-space N2 molecules at a photon energy of 880 eV. In our experiment, we employed circularly polarized synchrotron radiation for the photoionization and coincident electron and fragment-ion detection using cold target recoil ion momentum spectroscopy. The accompanying angle-resolved calculations were carried out by the multichannel single-center method and code within the frozen-core Hartree–Fock approximation. The computed emission distributions exhibit two distinct features along the molecular axis, which are the results of a superposition of the direct and nearest-neighbor scattering amplitudes for the photoemission from two nitrogen atoms. In the electric-dipole approximation, these peaks are symmetric with respect to both nitrogen atoms. Including nondipole (retardation) effects in the calculations results in a simultaneous increase and decrease of the scattering peaks towards the nitrogen atoms pointing in the forward and backward directions along the light propagation, respectively. These theoretical findings are in agreement with our experimental findings.

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来自固定空间 N2 分子的非极性光电子角分布

我们从实验和理论上研究了光子能量为 880 eV 时固定在空间中的 N2 分子的 N 1s 光离子化。在实验中，我们采用了圆偏振同步辐射进行光离子化，并利用冷靶反冲离子动量谱进行了电子和碎片离子的同步探测。伴随的角度分辨计算是通过多通道单中心方法和冷冻核心哈特里-福克近似代码进行的。计算得出的发射分布沿分子轴线呈现出两个明显的特征，这是两个氮原子光发射的直接散射和近邻散射振幅叠加的结果。在电偶极子近似中，这些峰值相对于两个氮原子是对称的。将非偶极子（延迟）效应纳入计算会导致散射峰同时增大和减小，分别指向沿光传播的前向和后向的氮原子。这些理论结果与我们的实验结果一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Physics B: Atomic, Molecular and Optical Physics 物理-光学

CiteScore

3.60

自引率

6.20%

发文量

182

审稿时长

2.8 months

期刊介绍： Published twice-monthly (24 issues per year), Journal of Physics B: Atomic, Molecular and Optical Physics covers the study of atoms, ions, molecules and clusters, and their structure and interactions with particles, photons or fields. The journal also publishes articles dealing with those aspects of spectroscopy, quantum optics and non-linear optics, laser physics, astrophysics, plasma physics, chemical physics, optical cooling and trapping and other investigations where the objects of study are the elementary atomic, ionic or molecular properties of processes.