Theoretical study of elastic electron scattering by zinc atoms in the framework of relativistic optical potential model

IF 1.8 4区 物理与天体物理 Q2 SPECTROSCOPY Journal of Electron Spectroscopy and Related Phenomena Pub Date : 2023-07-01 DOI:10.1016/j.elspec.2023.147365
Vladimir I. Kelemen , Sándor Demes , Eugene Yu. Remeta
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Abstract

A theoretical study of integral and differential cross sections as well as of spin-polarization effects is reported for elastic electron scattering by zinc atoms at collision energies up to 3 keV. It has been shown that a P-wave shape resonance appears in the low-energy range of the integral cross sections. Its energy is about 0.19 and 0.20 eV, while its width is about 0.309 and 0.356 eV for the j = 3/2 and j = 1/2 total angular momentum of the electron, respectively. The differential cross sections of scattering and the Sherman-functions S(E,θ) are computed by the parameter-free complex optical potential method. The calculated data are in a good overall agreement with the available experimental and theoretical data in the literature. The energy and angular positions have been located for five critical minima in the differential cross sections. The low-energy minimum is located at [6.63 eV; 102.34°], while the high-energy minimum is at [347.53 eV; 124.11°]. Ten points for the scattered electrons' total spin-polarization (S=±1) have been found in the vicinity of the critical minima along with the energy and the angular widths of the spin-polarization peaks (where |S|0.9).

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相对论光学势模型框架下锌原子弹性电子散射的理论研究
本文报道了锌原子在碰撞能量高达3kev时弹性电子散射的积分和微分截面以及自旋极化效应的理论研究。结果表明,在积分截面的低能范围内出现p波共振。当电子的总角动量为j = 3/2和j = 1/2时,其能量约为0.19和0.20 eV,宽度约为0.309和0.356 eV。用无参数复光势法计算了散射微分截面和谢尔曼函数S(E,θ)。计算数据与现有的实验和理论数据基本一致。在微分截面上确定了五个临界极小值的能量和角位置。低能最小值位于[6.63 eV];102.34°],能量最小值为347.53 eV;124.11°)。随着自旋极化峰的能量和角宽度(其中|S|≥0.9),在临界极小值附近发现了10个散射电子的总自旋极化点(S=±1)。
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来源期刊
CiteScore
3.30
自引率
5.30%
发文量
64
审稿时长
60 days
期刊介绍: The Journal of Electron Spectroscopy and Related Phenomena publishes experimental, theoretical and applied work in the field of electron spectroscopy and electronic structure, involving techniques which use high energy photons (>10 eV) or electrons as probes or detected particles in the investigation.
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