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Slow ions 84Kr15+, 17+ bombardment on GaAs

Yang Bian Yang Zhi-Hu Xu Qiu-Mei Guo Yi-Pan Wu Ye-Hong Song Zhang-Yong Cai Xiao-Hong

Slow ions 84Kr15+, 17+ bombardment on GaAs

Yang Bian, Yang Zhi-Hu, Xu Qiu-Mei, Guo Yi-Pan, Wu Ye-Hong, Song Zhang-Yong, Cai Xiao-Hong
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  • We have investigated surface morphology and visible light emission from slow ions Kr15+, 17+ colliding with GaAs (100). The surface disorder of GaAs films mainly depends on the charge state of incident ions. The two spectral lines of target atom Ga belong to transitions of GaⅠ 4p 2P1/2o5s 2S1/2 at 403.2 nm and 4p 2P3/2o5s 2S1/2 at 417.0 nm. Light emissions of target species depend on the energy of the incident ions deposited on the target surface atoms. During the neutralization process, the four spectral lines of Kr+ respectively can be attributed to the transitions of Kr Ⅱ 4d 4F7/25p 2D5/2o at 410.0 nm, 5s 2P3/25p 4S3/2o at 430.4 nm, 5p 4D3/2o4d 2D3/2 at 434.0 nm and Kr Ⅱ 4d 4D1/25p 2S1/2o at 486.0 nm. They are induced by cascade de-excitation after many electrons of the conductions band of the solid surface captured in highly excited states of the incident ion. Intensities of these six spectral lines from incident ions Kr17+ are obviously larger than Kr15+'s.
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No. 11174296), and the National Basic Research Program of China (Grant No. 2010CB832901).
    [1]

    Memon A, Fakhro S Q 1987 Int. J. IR Millim Waves 8 1391

    [2]

    Wang G H 1988 Physics of particle interaction with solids (Beijing: Scientific Press) (in Chinese) [王广厚 1988 粒子同固体相互作用物理学(北京:科学出版社)]

    [3]

    Look D C 1987 J. Electrochem Soc. 134 2527

    [4]

    Williams J S 1998 Mater. Sci. Eng. 253 8

    [5]

    Pearton S J, Poate J M, Sette F, Gibson J M, Jacobson D C, Williams J S 1987 Nucl. Instrum. Meth. B 19 369

    [6]

    Pearton S J 1991 Solid State Phenomena 1-2 247

    [7]

    Sharma B L 1989 Def. Sci. J. 39 353

    [8]

    Winter H, Auth C, Schuch R, Beebe E 1993 Phys. Rev. Lett. 71 1939

    [9]

    Burgdorfer J, Morgenstern R, Niehaus A 1986 J. Phys. B: At. Mol. Phys. 19 L507

    [10]

    Burgdorfer J, Lerner P, Meyer F W 1991 Phys. Rev. A 44 5674

    [11]

    Schenkel T, Hamza A V, Barnes A V, Schneider D H 1999 Progress in Surface Science 61 23

    [12]

    Burgdorfer J, Reinhold C, Hagg L Meyer F 1996 Aust. J. Phys. 49 527

    [13]

    Briand J P, Giardino G, Borsoni G, Le Roux V, Bechu N, Dreuil S, Tuske O, Machicoane G 2000 Review of Scientific Instruments 71 627

    [14]

    Grether M, Niemann D, Spieler A, Stolterfoht N 1997 Phys. Rev. A 56 3794

    [15]

    Thomaschewski J, BleckNeuhaus J, Grether M, Spieler A, Stolterfoht N 1998 Phys. Rev. A 57 3665

    [16]

    Zhang X A, Xiao G Q, Wang W S, Mao R S 2002 Nucl. Phys. Rev. 19 342 (in Chinese) [张小安, 肖国青, 王武生, 毛瑞士 2002 原子核物理评论 19 342]

    [17]

    Lee C S, Chang Y C, Ji T Y 1997 Nucl. Instrum. Meth. B 132 391

    [18]

    Qayyum A, Akhtar M N, Riffat T 2005 Radiat Phys. Chem. 72 663

    [19]

    Rajasekar P, Scott D, Materer N F 2006 Nucl. Instrum. Meth. B 245 411

    [20]

    Cazalilla M A, Lorente N, Diez Muino R, Gauyacq J P, Teillet-Billy D, Echenique P M 1998 Phys. Rev. B 58 13991

    [21]

    Yang Z H, Xu Q M, Guo Y P, Wu Y H, Song Z Y 2013 Chin. Phys. Lett. 30 013201

    [22]

    Yang Z R, Zhang X A, Xu Q M, Yang Z H 2013 Acta Phys. Sin. 62 043401 (in Chinese) [杨兆锐, 张小安, 徐秋梅, 杨治虎 2013 物理学报 62 043401]

    [23]

    Yang Z H, Song Z Y, Cui Y, Zhang H Q, Ruan F F, Shao J X, Du J, Liu Y W, Zhou K X, Zhang X A, Shao C J, Lu R C, Yu D Y, Chen X M, Cai X H 2008 Acta Phys. Sin. 57 803 (in Chinese) [杨治虎, 宋张勇, 崔莹, 张红强, 阮芳芳, 邵健雄, 杜鹃, 刘玉文, 朱可欣, 张小安, 邵曹杰, 卢荣春, 于得洋, 陈熙萌, 蔡晓红 2008 物理学报 57 803]

    [24]

    Bethe H A, Salpeter E E 1977 Quantum Mechanics of One- and Two-electron Atoms (New York Plenum Publishing Corporation)

    [25]

    Zhang L Q, Zhang C H, Yang Y T, Yao C F, Sun Y M, Li B S, Zhao Z M, Song S J 2009 Acta Phys. Sin. 58 5578 (in Chinese) [张丽卿, 张崇宏, 杨义涛, 姚存峰, 孙友梅, 李炳生, 赵志明, 宋书建 2009 物理学报 58 5578]

    [26]

    Kucheyev S O, Williams J S, Jagadish C, Li G, Pearton S J 2000 Appl. Phys. Lett. 76 3899

    [27]

    Yang Y T, Zhang C H, Sun Y M, Yao C F, Zhao Z M 2007 Nucl. Technol. 30 318 (in Chinese) [杨义涛, 张崇宏, 孙友梅, 姚存峰, 赵志明 2007 核技术 30 318]

    [28]

    Zhang L Q, Zhang C H, Yang Y T, Yao C F, Li B S, Sun Y M, Song S J 2009 Chin. Phys. Lett. 26 036101

    [29]

    Kramida A, Ralchenko Y, Reader J, NIST ASD Team 2012 NIST Atomic Spectra Database (ver. 5.0) [Online] (Available: http: //physics.nist.gov/asd; Gaithersburg: National Institute of Standards and Technology)

    [30]

    Machicoane G A, Schenkel T, Niedermayr T R, Newmann M W, Hamza A V, Barnes A V, McDonald J M, Tanis J A, Schneider D H 2002 Phys. Rev. A 65 042903

    [31]

    Sigmund P 1969 Phys. Rev. 184 383

    [32]

    Lee C S, Chang Y C, Chang Y H 1999 Nucl. Instrum. Meth. B 149 294

  • [1]

    Memon A, Fakhro S Q 1987 Int. J. IR Millim Waves 8 1391

    [2]

    Wang G H 1988 Physics of particle interaction with solids (Beijing: Scientific Press) (in Chinese) [王广厚 1988 粒子同固体相互作用物理学(北京:科学出版社)]

    [3]

    Look D C 1987 J. Electrochem Soc. 134 2527

    [4]

    Williams J S 1998 Mater. Sci. Eng. 253 8

    [5]

    Pearton S J, Poate J M, Sette F, Gibson J M, Jacobson D C, Williams J S 1987 Nucl. Instrum. Meth. B 19 369

    [6]

    Pearton S J 1991 Solid State Phenomena 1-2 247

    [7]

    Sharma B L 1989 Def. Sci. J. 39 353

    [8]

    Winter H, Auth C, Schuch R, Beebe E 1993 Phys. Rev. Lett. 71 1939

    [9]

    Burgdorfer J, Morgenstern R, Niehaus A 1986 J. Phys. B: At. Mol. Phys. 19 L507

    [10]

    Burgdorfer J, Lerner P, Meyer F W 1991 Phys. Rev. A 44 5674

    [11]

    Schenkel T, Hamza A V, Barnes A V, Schneider D H 1999 Progress in Surface Science 61 23

    [12]

    Burgdorfer J, Reinhold C, Hagg L Meyer F 1996 Aust. J. Phys. 49 527

    [13]

    Briand J P, Giardino G, Borsoni G, Le Roux V, Bechu N, Dreuil S, Tuske O, Machicoane G 2000 Review of Scientific Instruments 71 627

    [14]

    Grether M, Niemann D, Spieler A, Stolterfoht N 1997 Phys. Rev. A 56 3794

    [15]

    Thomaschewski J, BleckNeuhaus J, Grether M, Spieler A, Stolterfoht N 1998 Phys. Rev. A 57 3665

    [16]

    Zhang X A, Xiao G Q, Wang W S, Mao R S 2002 Nucl. Phys. Rev. 19 342 (in Chinese) [张小安, 肖国青, 王武生, 毛瑞士 2002 原子核物理评论 19 342]

    [17]

    Lee C S, Chang Y C, Ji T Y 1997 Nucl. Instrum. Meth. B 132 391

    [18]

    Qayyum A, Akhtar M N, Riffat T 2005 Radiat Phys. Chem. 72 663

    [19]

    Rajasekar P, Scott D, Materer N F 2006 Nucl. Instrum. Meth. B 245 411

    [20]

    Cazalilla M A, Lorente N, Diez Muino R, Gauyacq J P, Teillet-Billy D, Echenique P M 1998 Phys. Rev. B 58 13991

    [21]

    Yang Z H, Xu Q M, Guo Y P, Wu Y H, Song Z Y 2013 Chin. Phys. Lett. 30 013201

    [22]

    Yang Z R, Zhang X A, Xu Q M, Yang Z H 2013 Acta Phys. Sin. 62 043401 (in Chinese) [杨兆锐, 张小安, 徐秋梅, 杨治虎 2013 物理学报 62 043401]

    [23]

    Yang Z H, Song Z Y, Cui Y, Zhang H Q, Ruan F F, Shao J X, Du J, Liu Y W, Zhou K X, Zhang X A, Shao C J, Lu R C, Yu D Y, Chen X M, Cai X H 2008 Acta Phys. Sin. 57 803 (in Chinese) [杨治虎, 宋张勇, 崔莹, 张红强, 阮芳芳, 邵健雄, 杜鹃, 刘玉文, 朱可欣, 张小安, 邵曹杰, 卢荣春, 于得洋, 陈熙萌, 蔡晓红 2008 物理学报 57 803]

    [24]

    Bethe H A, Salpeter E E 1977 Quantum Mechanics of One- and Two-electron Atoms (New York Plenum Publishing Corporation)

    [25]

    Zhang L Q, Zhang C H, Yang Y T, Yao C F, Sun Y M, Li B S, Zhao Z M, Song S J 2009 Acta Phys. Sin. 58 5578 (in Chinese) [张丽卿, 张崇宏, 杨义涛, 姚存峰, 孙友梅, 李炳生, 赵志明, 宋书建 2009 物理学报 58 5578]

    [26]

    Kucheyev S O, Williams J S, Jagadish C, Li G, Pearton S J 2000 Appl. Phys. Lett. 76 3899

    [27]

    Yang Y T, Zhang C H, Sun Y M, Yao C F, Zhao Z M 2007 Nucl. Technol. 30 318 (in Chinese) [杨义涛, 张崇宏, 孙友梅, 姚存峰, 赵志明 2007 核技术 30 318]

    [28]

    Zhang L Q, Zhang C H, Yang Y T, Yao C F, Li B S, Sun Y M, Song S J 2009 Chin. Phys. Lett. 26 036101

    [29]

    Kramida A, Ralchenko Y, Reader J, NIST ASD Team 2012 NIST Atomic Spectra Database (ver. 5.0) [Online] (Available: http: //physics.nist.gov/asd; Gaithersburg: National Institute of Standards and Technology)

    [30]

    Machicoane G A, Schenkel T, Niedermayr T R, Newmann M W, Hamza A V, Barnes A V, McDonald J M, Tanis J A, Schneider D H 2002 Phys. Rev. A 65 042903

    [31]

    Sigmund P 1969 Phys. Rev. 184 383

    [32]

    Lee C S, Chang Y C, Chang Y H 1999 Nucl. Instrum. Meth. B 149 294

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  • Received Date:  18 September 2013
  • Accepted Date:  20 November 2013
  • Published Online:  05 March 2014

Slow ions 84Kr15+, 17+ bombardment on GaAs

  • 1. Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China;
  • 2. University of Chinese Academy of Sciences, Beijing 100049, China
Fund Project:  Project supported by the National Natural Science Foundation of China (Grant No. 11174296), and the National Basic Research Program of China (Grant No. 2010CB832901).

Abstract: We have investigated surface morphology and visible light emission from slow ions Kr15+, 17+ colliding with GaAs (100). The surface disorder of GaAs films mainly depends on the charge state of incident ions. The two spectral lines of target atom Ga belong to transitions of GaⅠ 4p 2P1/2o5s 2S1/2 at 403.2 nm and 4p 2P3/2o5s 2S1/2 at 417.0 nm. Light emissions of target species depend on the energy of the incident ions deposited on the target surface atoms. During the neutralization process, the four spectral lines of Kr+ respectively can be attributed to the transitions of Kr Ⅱ 4d 4F7/25p 2D5/2o at 410.0 nm, 5s 2P3/25p 4S3/2o at 430.4 nm, 5p 4D3/2o4d 2D3/2 at 434.0 nm and Kr Ⅱ 4d 4D1/25p 2S1/2o at 486.0 nm. They are induced by cascade de-excitation after many electrons of the conductions band of the solid surface captured in highly excited states of the incident ion. Intensities of these six spectral lines from incident ions Kr17+ are obviously larger than Kr15+'s.

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