Low-energy (E0 = 65 eV) electron-impact ionization of neon: Internormalized triple-differentical cross sections in 3D kinematics

Xueguang Ren,Alexander Dorn,Woon Yong Baek,Klaus Bartschat,Hans Rabus,Thomas Pflüger,Marvin Weyland,Oleg Zatsarinny,Sadek Amami,Don Madison

doi:10.1088/1742-6596/635/5/052021

Abstract

SynopsisWe present a combined experimental and theoretical study on the low-energy (E0 = 65 eV) electron- impact ionization of neon. The experimental data are compared to predictions from a hybrid second-order distorted-wave Born plus R-matrix approach (DWB2-RM), the distorted-wave Born approximation with inclusion of post-collision interaction (DWBA-PCI), a three-body distorted-wave approach (3DW), and a B-spline R-matrix (BSR) with pseudostates approach. Excellent agreement is found between experiment and the 3DW and BSR theories. The importance of PCI effects is clearly visible in this low-energy electron-impact ionization process.

Highlights

Synopsis We present a combined experimental and theoretical study on the low-energy (E0 = 65 eV) electronimpact ionization of neon
The experimental data are compared to predictions from a hybrid second-order distorted-wave Born plus R-matrix approach (DWB2-RM), the distorted-wave Born approximation with inclusion of post-collision interaction (DWBA-PCI), a three-body distorted-wave approach (3DW), and a B-spline R-matrix (BSR) with pseudostates approach
The importance of PCI effects is clearly visible in this low-energy electron-impact ionization process

Summary

Introduction

Zatsarinny Thomas Pfluger et al For a complete list of authors, see https://scholarsmine.mst.edu/phys_facwork/1515 Follow this and additional works at: https://scholarsmine.mst.edu/phys_facwork "Low-energy (E0 = 65 eV) Electron-Impact Ionization of Neon: Internormalized Triple-Differentical Cross Sections in 3D Kinematics," Journal of Physics: Conference Series, vol 635, no. 5, Institute of Physics - IOP Publishing, Sep 2015.

Results

Conclusion