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Strong field photoelectron holography studied by a generalized quantum-trajectory Monte Carlo method

Lin Cheng Zhang Hua-Tang Sheng Zhi-Hao Yu Xian-Huan Liu Peng Xu Jing-Wen Song Xiao-Hong Hu Shi-Lin Chen Jing Yang Wei-Feng

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Strong field photoelectron holography studied by a generalized quantum-trajectory Monte Carlo method

Lin Cheng, Zhang Hua-Tang, Sheng Zhi-Hao, Yu Xian-Huan, Liu Peng, Xu Jing-Wen, Song Xiao-Hong, Hu Shi-Lin, Chen Jing, Yang Wei-Feng
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  • Strong-field photoelectron holography encodes detailed temporal and spatial information about both theelectron and ion dynamics. Here, we review a series of numerical studies of strong-field photoelectron holographyin atoms and molecules by a generalized quantum-trajectory Monte Carlo method. By comparingthe generalized quantum-trajectory Monte Carlo simulationwiththe numerical solution of thetime-dependent Schrdinger equation, we demonstrate that, in the nonadiabatic tunneling regime, pronounced nonadiabatic effects occur which manifest in the energy cutoff of the holographic interference structure. Moreover, we found that a profound ring-like pattern can be observed in the deep tunneling ionization regime. Theappearance of the ring-like interference pattern masks the holographic interference structure. In contrast to the tunneling regime, the long-range Coulomb potential is found to play an essential role in the formation of the photoelectron holography in the nonadiabatic tunneling regime.
      Corresponding author: Song Xiao-Hong, songxh@stu.edu.cn;chen_jing@iapcm.ac.cn;wfyang@stu.edu.cn ; Chen Jing, songxh@stu.edu.cn;chen_jing@iapcm.ac.cn;wfyang@stu.edu.cn ; Yang Wei-Feng, songxh@stu.edu.cn;chen_jing@iapcm.ac.cn;wfyang@stu.edu.cn
    • Funds: Project was supported by the National Key Program for ST Research and Development, China (Grant No. 2016YFA0401100), theNationalBasic Research Program of China (Grant No. 2013CB922201), the National Natural Science Foundation of China (Grant Nos. 11374202, 11674209, 11274220, 11274050, 11334009, 11425414), the Major Program of Guangdong Natural Science Foundation (Grant No. 2014A030311019), and the Yang Fan Talent Project of Guangdong Province, China.
    [1]

    AgostiniP, Fabre F, Mainfray G, Petite G, Rahman N K 1979Phys. Rev. Lett. 42 1127

    [2]

    Becker W, Grasbon F, Kopold R, Miloševic D B, Paulus G G, Walther H 2002Adv. At. Mol. Opt. Phys. 48 35

    [3]

    Corkum P B 1993Phys. Rev. Lett. 71 1994

    [4]

    Huismans Y, Rouzée A, Gijsbertsen A, Jungmann J H, Smolkowska A S, Logman P S W M, Lépine F, Cauchy C, Zamith S, Marchenko T, Bakker J M, Berden G, Redlich B, Meer A F G, Muller H G, Vermin W, Schafer K J, Spanner M, Ivanov M Y, Smirnova O, Bauer D, Popruzhenko S V, Vrakking M J J 2011Science 331 61

    [5]

    Hickstein D D, Ranitovic P, Stefan W, Tong X M, Huismans Y, Arpin P, Zhou X B, Keister K E, Hogle C W, Zhang B S, Ding C Y, Johnsson P, Toshima N, Vrakking M J J, Mumane M M, Kapteyn H C 2012Phys. Rev. Lett. 109 073004

    [6]

    Meckel M, Staudte A, Patchkovskii S, Villeneuve D M, Corkum P B, Dörner R, Spanner M 2014Nature Phys. 10 594

    [7]

    Huismans Y, Gijsbertsen A, Smolkowska A S, Jungmann J H, Rouzée A, Logman P S W M, Lépine F, Cauchy C, Zamith S, Marchenko T, Bakker J M, Berden G, Redlich B, Meer A F G, Ivanov M Y, Yan T M, Bauer D, Smirnova O, Vrakking M J J 2012Phys. Rev. Lett. 109 013002

    [8]

    Marchenko T, Huismans Y, Schafer K J, Vrakking M J J 2011Phys. Rev. A 84 053427

    [9]

    Yang W F, Song X H, Chen Z J 2012Opt. Express 20 12067

    [10]

    Yang W F, Song X H, Zeng Z N, Li R X, Xu Z Z 2010Opt. Express 18 2558

    [11]

    Bian X B, Huismans Y, Smimova O, Yuan K J, Vrakking M J J, Bandrauk A D 2011Phys. Rev. A 84 043420

    [12]

    Yang W F, Sheng Z H, Feng X P, Wu M L, Chen Z J, Song X H 2014Opt. Express 22 2519

    [13]

    Haertelt M, Bian X B, Spanner M, Staudte A, Corkum P B 2016Phys. Rev. Lett. 116 133001

    [14]

    Zhou Y M, Tolstikhin O I, Morishita T 2016Phys. Rev. Lett. 116 173001

    [15]

    Keldysh L V 1965Sov. Phys. JETP 20 1307

    [16]

    Yudin G L, Ivanov M Y 2001Phys. Rev. A 64 013409

    [17]

    Ivanov M Y, Spanner M, Smirnova O 2005J. Mod. Opt. 52 165

    [18]

    Eckle P, Pfeiffer A N, Cirelli C, Staudte A, Dörner R, Muller H G, Bttiker M, Keller U 2008Science 322 1525

    [19]

    Boge R, Cirelli C, Landsman A S, Heuser S, Ludwig A, Maurer J, Weger M, Gallmann L, Keller U 2013Phys. Rev. Lett. 111 103003

    [20]

    Gkortsas V M, Bhardwaj S, Lai C J, Hong K H, Filho E L F, Kärter F X 2011Phys. Rev. A 84 013427

    [21]

    Ivanov I A, Kheifets A S 2014Phys. Rev. A 89 021402(R)

    [22]

    Wang C, Lai X Y, Hu Z L, Chen Y J, Quan W, Kang H P, Gong C, Liu X 2014Phys. Rev. A 90 013422

    [23]

    Blaga C I, Catoire F, Colosimo P, Paulus G G, Muller H G, Agostini P, Dimauro L F 2009Nature Phys. 5 335

    [24]

    Quan W, Lin Z, Wu M, Kang H, Liu H, Liu X, Chen J, Liu J, He X T, Chen S G, Xiong H, Guo L, Xu H, Fu Y, Cheng Y, Xu Z Z 2009Phys. Rev. Lett. 103 093001

    [25]

    Wu C Y, Yang Y D, Liu Y Q, Gong Q H, Wu M, Liu X, Hao X L, Li W D, He X T, Chen J 2012Phys. Rev. Lett. 109 043001

    [26]

    Liu C P, Hatsagortsyan K Z 2010Phys. Rev. Lett. 105 113003

    [27]

    Yan T M, Popruzhenko S V, Vrakking M J J, Bauer D 2010Phys. Rev. Lett. 105 253002

    [28]

    Kästner A, Saalmann U, Rost J M 2012Phys. Rev. Lett. 108 033201

    [29]

    Chu W, Wu M Y, Zeng B, Yao J P, Ni J L, Xiong H, Xu H, Lin Z Y, Kang H P, Quan W, Chen J, Liu X, Cheng Y, Xu Z Z 2012Phys. Rev. A 85 021403

    [30]

    Guo L, Han S S, Liu X, Cheng Y, Xu Z Z, Fan J, Chen J, Chen S G, Becker W, Blaga C I, DiChiara A D, Sistrunk E, Agostini P, DiMauro L F 2013Phys. Rev. Lett. 110 013001

    [31]

    Brabec T, Ivanov M Y, Corkum P B 1996Phys. Rev. A 54 R2551

    [32]

    Hu B, Liu J, Chen S 1997Phys. Lett. A 236 533

    [33]

    Chen J, Liu J, Chen S 2000Phys. Rev. A 61 033402

    [34]

    Li M, Geng J W, Liu H, Deng Y, Wu C, Peng L Y, Gong Q, Liu Y 2014Phys. Rev. Lett. 112 113002

    [35]

    Song X H, Lin C, Sheng Z H, Liu P, Chen Z J, Yang W F, Hu S X, Lin C D, Chen J 2016Sci. Rep. 6 28392

    [36]

    Yang W F, Zhang H T, Lin C, Xu J W, Sheng Z H, Song X H, Hu S X, Chen J 2016Phys. Rev. A 94 043419

    [37]

    Perelomov A M, Popov V S, Terentev M V 1966Sov. Phys. JETP 23 924

    [38]

    Salières P, Carrè B, Dèroff L L, Grasbon F, Paulus G G, Walther H, Kopold R, Becker W, Milošević D B, Sanpera A, Lewenstein M 2001Science 292 902

    [39]

    Bondar D I 2008Phys. Rev. A 78 015405

    [40]

    Li M, Geng J W, Han M, Liu M M, Peng L Y, Gong Q H, Liu Y Q 2016Phys. Rev. A 93 013402

    [41]

    Shvetsov-Shilovski N I, Lein M, Madsen L B, Räsänen E, Lemell C, Burgdörfer J, Arbó D G, Tökési K 2016Phys. Rev. A 94 013415

    [42]

    Kopold R, Becker W, Kleber M, Paulus G G 2002J. Phys. B:At. Mol. Opt. Phys. 35 217

    [43]

    Li M, Sun X, Xie X, Shao Y, Deng Y, Wu C, Gong Q, Liu Y 2015Sci. Rep. 5 8519

    [44]

    Liu M M, Li M, Wu C, Gong Q, Staudte A, Liu Y 2016Phys. Rev. Lett. 116 163004

    [45]

    Möller M, Meyer F, Sayler A M, Paulus G G, Kling M F, Schmidt B E, Becker W, Milošević D B 2014Phys. Rev. A 90 023412

  • [1]

    AgostiniP, Fabre F, Mainfray G, Petite G, Rahman N K 1979Phys. Rev. Lett. 42 1127

    [2]

    Becker W, Grasbon F, Kopold R, Miloševic D B, Paulus G G, Walther H 2002Adv. At. Mol. Opt. Phys. 48 35

    [3]

    Corkum P B 1993Phys. Rev. Lett. 71 1994

    [4]

    Huismans Y, Rouzée A, Gijsbertsen A, Jungmann J H, Smolkowska A S, Logman P S W M, Lépine F, Cauchy C, Zamith S, Marchenko T, Bakker J M, Berden G, Redlich B, Meer A F G, Muller H G, Vermin W, Schafer K J, Spanner M, Ivanov M Y, Smirnova O, Bauer D, Popruzhenko S V, Vrakking M J J 2011Science 331 61

    [5]

    Hickstein D D, Ranitovic P, Stefan W, Tong X M, Huismans Y, Arpin P, Zhou X B, Keister K E, Hogle C W, Zhang B S, Ding C Y, Johnsson P, Toshima N, Vrakking M J J, Mumane M M, Kapteyn H C 2012Phys. Rev. Lett. 109 073004

    [6]

    Meckel M, Staudte A, Patchkovskii S, Villeneuve D M, Corkum P B, Dörner R, Spanner M 2014Nature Phys. 10 594

    [7]

    Huismans Y, Gijsbertsen A, Smolkowska A S, Jungmann J H, Rouzée A, Logman P S W M, Lépine F, Cauchy C, Zamith S, Marchenko T, Bakker J M, Berden G, Redlich B, Meer A F G, Ivanov M Y, Yan T M, Bauer D, Smirnova O, Vrakking M J J 2012Phys. Rev. Lett. 109 013002

    [8]

    Marchenko T, Huismans Y, Schafer K J, Vrakking M J J 2011Phys. Rev. A 84 053427

    [9]

    Yang W F, Song X H, Chen Z J 2012Opt. Express 20 12067

    [10]

    Yang W F, Song X H, Zeng Z N, Li R X, Xu Z Z 2010Opt. Express 18 2558

    [11]

    Bian X B, Huismans Y, Smimova O, Yuan K J, Vrakking M J J, Bandrauk A D 2011Phys. Rev. A 84 043420

    [12]

    Yang W F, Sheng Z H, Feng X P, Wu M L, Chen Z J, Song X H 2014Opt. Express 22 2519

    [13]

    Haertelt M, Bian X B, Spanner M, Staudte A, Corkum P B 2016Phys. Rev. Lett. 116 133001

    [14]

    Zhou Y M, Tolstikhin O I, Morishita T 2016Phys. Rev. Lett. 116 173001

    [15]

    Keldysh L V 1965Sov. Phys. JETP 20 1307

    [16]

    Yudin G L, Ivanov M Y 2001Phys. Rev. A 64 013409

    [17]

    Ivanov M Y, Spanner M, Smirnova O 2005J. Mod. Opt. 52 165

    [18]

    Eckle P, Pfeiffer A N, Cirelli C, Staudte A, Dörner R, Muller H G, Bttiker M, Keller U 2008Science 322 1525

    [19]

    Boge R, Cirelli C, Landsman A S, Heuser S, Ludwig A, Maurer J, Weger M, Gallmann L, Keller U 2013Phys. Rev. Lett. 111 103003

    [20]

    Gkortsas V M, Bhardwaj S, Lai C J, Hong K H, Filho E L F, Kärter F X 2011Phys. Rev. A 84 013427

    [21]

    Ivanov I A, Kheifets A S 2014Phys. Rev. A 89 021402(R)

    [22]

    Wang C, Lai X Y, Hu Z L, Chen Y J, Quan W, Kang H P, Gong C, Liu X 2014Phys. Rev. A 90 013422

    [23]

    Blaga C I, Catoire F, Colosimo P, Paulus G G, Muller H G, Agostini P, Dimauro L F 2009Nature Phys. 5 335

    [24]

    Quan W, Lin Z, Wu M, Kang H, Liu H, Liu X, Chen J, Liu J, He X T, Chen S G, Xiong H, Guo L, Xu H, Fu Y, Cheng Y, Xu Z Z 2009Phys. Rev. Lett. 103 093001

    [25]

    Wu C Y, Yang Y D, Liu Y Q, Gong Q H, Wu M, Liu X, Hao X L, Li W D, He X T, Chen J 2012Phys. Rev. Lett. 109 043001

    [26]

    Liu C P, Hatsagortsyan K Z 2010Phys. Rev. Lett. 105 113003

    [27]

    Yan T M, Popruzhenko S V, Vrakking M J J, Bauer D 2010Phys. Rev. Lett. 105 253002

    [28]

    Kästner A, Saalmann U, Rost J M 2012Phys. Rev. Lett. 108 033201

    [29]

    Chu W, Wu M Y, Zeng B, Yao J P, Ni J L, Xiong H, Xu H, Lin Z Y, Kang H P, Quan W, Chen J, Liu X, Cheng Y, Xu Z Z 2012Phys. Rev. A 85 021403

    [30]

    Guo L, Han S S, Liu X, Cheng Y, Xu Z Z, Fan J, Chen J, Chen S G, Becker W, Blaga C I, DiChiara A D, Sistrunk E, Agostini P, DiMauro L F 2013Phys. Rev. Lett. 110 013001

    [31]

    Brabec T, Ivanov M Y, Corkum P B 1996Phys. Rev. A 54 R2551

    [32]

    Hu B, Liu J, Chen S 1997Phys. Lett. A 236 533

    [33]

    Chen J, Liu J, Chen S 2000Phys. Rev. A 61 033402

    [34]

    Li M, Geng J W, Liu H, Deng Y, Wu C, Peng L Y, Gong Q, Liu Y 2014Phys. Rev. Lett. 112 113002

    [35]

    Song X H, Lin C, Sheng Z H, Liu P, Chen Z J, Yang W F, Hu S X, Lin C D, Chen J 2016Sci. Rep. 6 28392

    [36]

    Yang W F, Zhang H T, Lin C, Xu J W, Sheng Z H, Song X H, Hu S X, Chen J 2016Phys. Rev. A 94 043419

    [37]

    Perelomov A M, Popov V S, Terentev M V 1966Sov. Phys. JETP 23 924

    [38]

    Salières P, Carrè B, Dèroff L L, Grasbon F, Paulus G G, Walther H, Kopold R, Becker W, Milošević D B, Sanpera A, Lewenstein M 2001Science 292 902

    [39]

    Bondar D I 2008Phys. Rev. A 78 015405

    [40]

    Li M, Geng J W, Han M, Liu M M, Peng L Y, Gong Q H, Liu Y Q 2016Phys. Rev. A 93 013402

    [41]

    Shvetsov-Shilovski N I, Lein M, Madsen L B, Räsänen E, Lemell C, Burgdörfer J, Arbó D G, Tökési K 2016Phys. Rev. A 94 013415

    [42]

    Kopold R, Becker W, Kleber M, Paulus G G 2002J. Phys. B:At. Mol. Opt. Phys. 35 217

    [43]

    Li M, Sun X, Xie X, Shao Y, Deng Y, Wu C, Gong Q, Liu Y 2015Sci. Rep. 5 8519

    [44]

    Liu M M, Li M, Wu C, Gong Q, Staudte A, Liu Y 2016Phys. Rev. Lett. 116 163004

    [45]

    Möller M, Meyer F, Sayler A M, Paulus G G, Kling M F, Schmidt B E, Becker W, Milošević D B 2014Phys. Rev. A 90 023412

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  • Received Date:  25 August 2016
  • Accepted Date:  19 October 2016
  • Published Online:  05 November 2016

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