Formation of hydrogen atom in 2s state in proton-sodium inelastic scattering

doi:10.1088/1674-1056/24/3/033402

Abstract The inelastic collision of protons with sodium atoms are treated for the first time within the framework of the coupled-static and frozen core approximations. The method is used for calculating partial and total cross-sections with the assumption that only two channels (elastic and hydrogen formation in 2s state) are open. In each case, the calculations are carried out for seven values of the total angular momentum l (0 ≤ l ≤ 6). The target is described using the Clementi Roetti wave functions within the framework of the one valence electron model. We use Lipmann-Swinger equation to solve the derived equations of the problem, then apply an iterative numerical method to obtain the code of computer to calculate iterative partial cross-sections. This can be done through calculating the reactance matrix at different values of considered energies to obtain the transition matrix that gives partial and total cross sections. The present results for total hydrogen (2s state) formation cross sections are in agreement with results of other available ones in wide range of incident energy.

Keywords: proton-sodium inelastic scattering hydrogen formation

Received: 24 June 2014
Revised: 15 August 2014
Accepted manuscript online:

PACS:	34.80.Dp	(Atomic excitation and ionization)
	34.80.Gs	(Molecular excitation and ionization)
	34.80.Ht	(Dissociation and dissociative attachment)

Corresponding Authors: Sabbah A. Elkilany
E-mail: sabbelkilany@yahoo.com

Cite this article:

Sabbah A. Elkilany Formation of hydrogen atom in 2s state in proton-sodium inelastic scattering 2015 Chin. Phys. B 24 033402

[1]	Abdel-Raouf M A 1988 J. Phys. B 21 2331
[2]	Elkilany S A 1995 IL Nuovo Cimento 17D 1
[3]	Elkilany S A 1996 IL Nuovo Cimento 109A 1
[4]	Elkilany S A 1997 IL Nuovo Cimento 19D 1525
[5]	Elkilany S A 1998 IL Nuovo Cimento 20D 147
[6]	Surdutovich E, Johnson J M, Kauppila W K, Kwan C K and Stein T S 2002 Phys. Rev. A 65 032713
[7]	Jun G N, Jun Z Y and Qi K Y 2004 Chin. Phys. Lett. 21 2406
[8]	Roy U and Ho Y K 2004 Nuclear Instruments and Methods in Physics Research B221 36
[9]	Gilmore S, Blackwood J E and Walters H R J 2004 Nuclear Instruments and Methods in Physics Research B221 124
[10]	Ratnavelu K and Ng S Y 2006 Chin. Phys. Lett. 23 1753
[11]	Abdel-Raouf M A and Elkilany S A 2009 J. Phys. B 194 072004
[12]	Abdel-Raouf M A and Elkilany S A 2009 Int. J. Pure Appl. Phys. 5 93
[13]	Elkilany S A 2009 Int. J. Pure Appl. Phys. 5 101
[14]	Jun C Y, Jun Z Y and Fang L 2011 Chin. Phys. Lett. 28 123403
[15]	Fang L, Jun C Y and Jun Z 2012 Chin. Phys. B 21 053403
[16]	Banyard K E and Shirtcliffe G W 1979 J. Phys. B 12 3247
[17]	Ferrante G, Fiordilino E and Zarcone M 1979 IL Nuovo Cimento 52B 151
[18]	Daniele R, Ferrante G and Fiordilino E 1979 IL Nuovo Cimento 54B 185
[19]	Ferrante Gand Fiordilino E 1980 IL Nuovo Cimento 57B 1
[20]	Fritsch W and Lin C D 1983 J. Phys. B 16 1595
[21]	Choudhury K B and Sural D P 1992 J. Phys. B 25 853
[22]	Tiwari Y N 2008 Pramana-J. Phys. 70 753
[23]	Elkilany S A and Abdel-Raouf M A 2012 J. Phys. B 388 072030
[24]	Elkilany S A 2014 Indian J. Phys. 88 19
[25]	Elkilany S A 2014 J. Theor. Chem. 2014 1
[26]	Clementi E and Roetti C 1974 Atomic Data Nuclear Data Tables 14 177

[1]	Electron excitation processes in low energy collisions of hydrogen-helium atoms Kun Wang(王堃), Chuan Dong(董川), Yi-Zhi Qu(屈一至), Ling Liu(刘玲), Yong Wu(吴勇),Xu-Hai Hong(洪许海), and Robert J. Buenker. Chin. Phys. B, 2022, 31(12): 123401.
[2]	Electron emission induced by keV protons from tungsten surface at different temperatures Li-Xia Zeng(曾利霞), Xian-Ming Zhou(周贤明), Rui Cheng(程锐), Yu Liu(柳钰), Xiao-An Zhang(张小安), and Zhong-Feng Xu(徐忠锋). Chin. Phys. B, 2022, 31(7): 073202.
[3]	Electron-impact ionization cross section calculations for lithium-like ions Guo-Jie Bian(卞国杰), Jyh-Ching Chang(张稚卿), Ke-Ning Huang(黄克宁), Chen-Sheng Wu(武晨晟), Yong-Jun Cheng(程勇军), Kai Wang(王凯), and Yong Wu(吴勇). Chin. Phys. B, 2022, 31(1): 013401.
[4]	X-ray emission for Ar¹¹⁺ ions impacting on various targets in the collisions near the Bohr velocity Xian-Ming Zhou(周贤明), Jing Wei(尉静), Rui Cheng(程锐), Yan-Hong Chen(陈燕红), Ce-Xiang Mei(梅策香), Li-Xia Zeng(曾利霞), Chang-Hui Liang(梁昌慧), Yao-Zong Li(李耀宗), Yong-Tao Zhao(赵永涛), and Xiao-An Zhang(张小安). Chin. Phys. B, 2021, 30(8): 083201.
[5]	Evidence of potential change in nonsequential double ionization Changchun Jia(贾昌春), Pu Zhang(张朴), Hua Wen(文华), and Zhangjin Chen(陈长进). Chin. Phys. B, 2021, 30(2): 023401.
[6]	Double differential cross sections for ionization of H by 75 keV proton impact: Assessing the role of correlated wave functions Jungang Fan(范军刚), Xiangyang Miao(苗向阳), and Xiangfu Jia(贾祥福). Chin. Phys. B, 2020, 29(12): 120301.
[7]	Quantitative rescattering theory for nonsequential double ionization Zhangjin Chen(陈长进), Fang Liu(刘芳), Hua Wen(文华). Chin. Phys. B, 2019, 28(12): 123401.
[8]	Relativistic electron scattering from freely movable proton/μ⁺ in the presence of strong laser field Ningyue Wang(王宁月), Liguang Jiao(焦利光), Aihua Liu(刘爱华). Chin. Phys. B, 2019, 28(9): 093402.
[9]	Interference effect of photoionization of hydrogen atoms by ultra-short and ultra-fast high-frequency chirped pulses Ningyue Wang(王宁月), Aihua Liu(刘爱华). Chin. Phys. B, 2019, 28(8): 083403.
[10]	Electron-impact single ionizaiton for W⁴⁺ and W⁵⁺ Denghong Zhang(张登红), Luyou Xie(颉录有), Jun Jiang(蒋军), Zhongwen Wu(武中文), Chenzhong Dong(董晨钟), Yinglong Shi(师应龙), Yizhi Qu(屈一至). Chin. Phys. B, 2018, 27(5): 053402.
[11]	Polarization and exchange effects in elastic scattering of electron with atoms and ions Zhang-Jin Chen(陈长进), Dan-Dan Cui(崔丹丹). Chin. Phys. B, 2018, 27(5): 053403.
[12]	Relativistic and distorted wave effects on Xe 4d electron momentum distributions Minfu Zhao(赵敏福), Xu Shan(单旭), Shanshan Niu(牛姗姗), Xiangjun Chen(陈向军). Chin. Phys. B, 2017, 26(9): 093103.
[13]	Semiclassical investigation of Coulomb focusing effects in atomic above-threshold ionization with elliptically polarized laser fields Chuan-Liang Wang(王传亮), Li-Xin Xia(夏立新), Hong-Bin Yao(姚洪斌), Wen-Liang Li(李文亮). Chin. Phys. B, 2017, 26(4): 043201.
[14]	Production of projectile and target K-vacancy in near-symmetric collisions of 60-100 MeV Cu⁹⁺ ions with thin Zn target Yipan Guo(郭义盼), Zhihu Yang(杨治虎), Shubin Du(杜树斌), Hongwei Chang(常宏伟), Qingliang Xia(夏清良), Qiumei Xu(徐秋梅). Chin. Phys. B, 2016, 25(3): 033401.
[15]	X-ray emission from 424-MeV/u C ions impacting on selected target Xian-Ming Zhou(周贤明), Rui Cheng(程锐), Yu Lei(雷瑜), Yuan-Bo Sun(孙渊博), Yu-Yu Wang(王瑜玉), Xing Wang(王兴), Ge Xu(徐戈), Ce-Xiang Mei(梅策香), Xiao-An Zhang(张小安), Xi-Meng Chen(陈熙萌), Guo-Qing Xiao(肖国青), Yong-Tao Zhao(赵永涛). Chin. Phys. B, 2016, 25(2): 023402.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

Formation of hydrogen atom in 2s state in proton-sodium inelastic scattering

Cite this article:

Online attention