2H 吡喃和 4H 吡喃分子对电子的弹性和电子非弹性散射

IF 2.7 3区 物理与天体物理 Q2 PHYSICS, APPLIED Journal of Applied Physics Pub Date : 2024-01-11 DOI:10.1063/5.0187724
Murilo O. Silva, G. M. Moreira, M. Bettega, R. F. da Costa
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引用次数: 0

摘要

我们报告了电子与 2H 吡喃和 4H 吡喃分子碰撞的弹性和电子非弹性积分和微分截面。散射计算采用施文格多通道方法进行,目的是:(i) 研究共振态的形成;(ii) 分配和比较这些异构体的共振谱;(iii) 评估多通道耦合效应对弹性和电子非弹性散射过程的影响。在弹性通道中,在静态交换和静态交换加极化近似水平上进行的计算显示,每一种吡喃异构体都存在三种形状共振。对于 2H 吡喃分子,我们发现了与长寿命 π∗ 阴离子态的形成有关的两个共振,根据计算中使用的极化模型,这两个共振的中心分别位于 1.38 或 1.32 eV (π1∗) 和 4.54 或 4.46 eV (π2∗),以及位于 9.50-10.00 eV 附近的具有 σ∗ 特性的宽共振。在 4H 吡喃分子中观察到的共振具有相同的特征,其中心位于 2.08 或 2.20 eV(π1∗)、3.92 或 3.94 eV(π2∗)以及 9.24-10.00 或 9.50-10.00 eV(σ∗),具体取决于计算中使用的极化模型。在比较 2HPY 和 4HPY 分子的结果时,共振位置的差异可以用感应效应来解释。电子非弹性计算采用了单构型相互作用策略的最小轨道基础,并考虑了 2H 吡喃的多达 129 个开放通道和 4H 吡喃的多达 249 个开放通道。根据这些通道耦合水平,我们计算了从基态激发到 2H 吡喃的 13A′、23A′、11A′′ 和 21A′ 电子激发态以及 4H 吡喃的 13B2、13A1、11B1 和 11B2 电子激发态的积分和微分截面。对于这两种异构体,我们观察到的总体趋势是,随着散射计算中开放的通道越多,截面的大小就越小。我们还利用二元对撞-贝特模型获得了 2H- 和 4H- 吡喃的总电离截面,然后将其与弹性和电子非弹性截面相加,估算出总截面。总体而言,这些结果相当于迄今为止公布的这些目标的第一组横截面。这项工作旨在满足不同领域的需求,扩大电子与技术、环境和生物相关分子碰撞的截面数据集。
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Elastic and electronically inelastic scattering of electrons by 2H-pyran and 4H-pyran molecules
We report on elastic and electronically inelastic integral and differential cross sections for electron collisions with the 2H-pyran and 4H-pyran molecules. The scattering calculations were performed with the Schwinger multichannel method and aimed to (i) investigate the formation of resonant states, (ii) assign and compare the resonance spectrum of these isomers, and (iii) evaluate the influence of multichannel coupling effects upon elastic and electronically inelastic scattering processes. In the elastic channel, calculations carried out at the static-exchange and static-exchange plus polarization levels of approximation revealed the presence of three shape resonances for each one of the pyran isomers. For the 2H-pyran molecule, we found two resonances related to the formation of long-lived π∗ anion states that are centered at 1.38 or 1.32 eV (π1∗) and 4.54 or 4.46 eV (π2∗), depending on the polarization model used in the calculations, and a broad resonance of σ∗ character located around 9.50–10.00 eV. The resonances observed in the case of the 4H-pyran molecule have the same character with centers located at 2.08 or 2.20 eV (π1∗), 3.92 or 3.94 eV (π2∗), and 9.24–10.00 or 9.50–10.00 eV (σ∗), depending on the polarization model used in the calculations. The difference in the position of the resonances when comparing the results for the 2HPY and 4HPY molecules is explained in terms of the inductive effect. The electronically inelastic calculations employed the minimal orbital basis for single configuration interactions strategy and considered up to 129 open channels for 2H-pyran and up to 249 open channels for 4H-pyran. According to these levels of channel coupling, we computed integral and differential cross sections for the excitation from the ground state to the 13A′, 23A′, 11A′′, and 21A′ electronic excited states of 2H-pyran and to the 13B2, 13A1, 11B1, and 11B2 electronic excited states of 4H-pyran. As a general trend, for both isomers, we observed that the magnitude of the cross sections is reduced as more channels are considered open in the scattering calculations. We also obtained the total ionization cross sections for 2H- and 4H-pyran using the binary-encounter-Bethe model, which next was summed to the elastic and electronically inelastic cross sections to estimate the total cross sections. As a whole, these results correspond to the first set of cross sections for these targets published to date. Such an effort is aimed at addressing the demand of different communities regarding the expansion of the cross section data set for electron collisions with molecules of technological, environmental, and biological relevance, a need that has been raised by several reviews on the subject.
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来源期刊
Journal of Applied Physics
Journal of Applied Physics 物理-物理:应用
CiteScore
5.40
自引率
9.40%
发文量
1534
审稿时长
2.3 months
期刊介绍: The Journal of Applied Physics (JAP) is an influential international journal publishing significant new experimental and theoretical results of applied physics research. Topics covered in JAP are diverse and reflect the most current applied physics research, including: Dielectrics, ferroelectrics, and multiferroics- Electrical discharges, plasmas, and plasma-surface interactions- Emerging, interdisciplinary, and other fields of applied physics- Magnetism, spintronics, and superconductivity- Organic-Inorganic systems, including organic electronics- Photonics, plasmonics, photovoltaics, lasers, optical materials, and phenomena- Physics of devices and sensors- Physics of materials, including electrical, thermal, mechanical and other properties- Physics of matter under extreme conditions- Physics of nanoscale and low-dimensional systems, including atomic and quantum phenomena- Physics of semiconductors- Soft matter, fluids, and biophysics- Thin films, interfaces, and surfaces
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