PERMLINK: www.lxcat.net/CDAP
DESCRIPTION: State-to-state electron-impact excitation rate coefficients of atoms, ions, and small molecules can be obtained by examining collisional-radiative modelling by plasma experiments under specific conditions with combination of OES, LAS, probe, and microwave experiments. This method orignied from the so-called CDAP method in afterglow discharge of argon CCP and is expended to other kinds of miniaturized ECR and ICP.These rate coefficient data are available for modelling of non-equlibrium plasma with excited state kinetics considered as well as for determining electron temperature and density by the OES line-ratio method.
CONTACT:
Xi-Ming Zhu (simon.ximing.zhu@outlook.com) ,Yan-Fei Wang (arvin.yanfei.wang@outlook.com) and Lu Wang (hans.lu.wang@outlook.com) Harbin Institute of Technology, Harbin 150080, China
Yi-Kang Pu (puyikang@mail.tsinghua.edu.cn) Tsinghua University, Beijing 100084, China
HOW TO REFERENCE:
Xi-Ming Zhu, Yan-Fei Wang, Yang Wang, Da-Ren Yu, Oleg Zatsarinny, Klaus Bartschat, Tsanko Vaskov Tsankov, and Uwe Czarnetzki 2019 Plasma Sources Sci. Technol. 28 105005.
Xi-Ming Zhu, Zhi-Wen Cheng, Emile Carbone, Yi-Kang Pu, and Uwe Czarnetzki 2016 Plasma Sources Sci. Technol. 25 043003.
SWARM / TRANSPORT DATA
Species: e + Ar {4} « Ar(1s2) [7], Ar(1s3) [10], Ar(1s4) [10], Ar(1s5) [21] », Xe+ (5p5 E=0eV) [21], Xe+ {22} « Xe+(5p46p E=13.860eV) [2], Xe+(5p46p E=13.881eV) [2], Xe+(5p46p E=14.074eV) [2], Xe+(5p46p E=14.094eV) [2], Xe+(5p46p E=14.098eV) [2], Xe+(5p46p E=14.479eV) [2], Xe+(5p46p E=14.93eV) [2], Xe+(5p46p E=15.024eV) [2], Xe+(5p46p E=15.08eV) [2], Xe+(5p46p E=15.264eV) [2], Xe+(5p46p E=15.282eV) [2], Xe+(5p46p E=15.41eV) [2], Xe+(5p46p E=15.445eV) [2], Xe+(5p46p E=15.977eV) [2], Xe+(5p46p E=16.077eV) [2], Xe+(5p46p E=16.126eV) [2], Xe+(5p46p E=16.356eV) [2], Xe+(5p46p E=16.392eV) [2], Xe+(5p46p E=16.458eV) [2], Xe+(5p46p E=18.378eV) [2], Xe+(5p46p E=18.497eV) [2], Xe+(5p5 E=1.3064eV) [21] »
Updates: 2017-08-13 … 2021-02-10
Downloads: 112 times from 2017-08-13