冷原子成像谱仪中靶表征及光电离研究 
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马祎璇, 李任远, 袁俊阳, 孟秋香, 马欢玉, 阮舒舒, 张逸竹, 阎天民, 沈镇捷, 王新成, 江玉海. 冷原子成像谱仪中靶表征及光电离研究[J]. 中国激光, 2020, 47(6): 0601011.
Ma Yixuan, Li Renyuan, Yuan Junyang, Meng Qiuxiang, Ma Huanyu, Ruan Shushu, Zhang Yizhu, Yan Tianmin, Shen Zhenjie, Wang Xincheng, Jiang Yuhai. Target Characterization and Photoionization Study in Cold Atom Imaging Spectrometer[J]. Chinese Journal of Lasers, 2020, 47(6): 0601011.
[1] Ullrich J, Moshammer R, Dorn A, et al. Recoil-ion and electron momentum spectroscopy: reaction-microscopes[J]. Reports on Progress in Physics, 2003, 66(9): 1463-1545.
[2] Krausz F, Ivanov M. Attosecond physics[J]. Reviews of Modern Physics, 2009, 81(1): 163-234.
[3] Guo L, Han S S, Liu X, et al. Scaling of the low-energy structure in above-threshold ionization in the tunneling regime: theory and experiment[J]. Physical Review Letters, 2013, 110: 013001.
[4] Eckle P, Pfeiffer A N, Cirelli C, et al. Attosecond ionization and tunneling delay time measurements in helium[J]. Science, 2008, 322(5907): 1525-1529.
[5] 郭振宁, 马雪岩, 韩猛, 等. 飞秒激光场中原子/分子的隧道电离及应用[J]. 中国激光, 2019, 46(5): 0508017.
[6] L'Huillier A. Lompre L A, Mainfray G, et al. Multiply charged ions formed by multiphoton absorption processes in the continuum[J]. Physical Review Letters, 1982, 48(26): 1814-1817.
[7] Hao X L, Chen J, Li W D, et al. Quantum effects in double ionization of argon below the threshold intensity[J]. Physical Review Letters, 2014, 112(7): 073002.
[8] Ye D F, Li M, Fu L B, et al. Scaling laws of the two-electron sum-energy spectrum in strong-field double ionization[J]. Physical Review Letters, 2015, 115(12): 123001.
[9] Ablikim U, Bomme C, Xiong H, et al. Identification of absolute geometries of cis and trans molecular isomers by Coulomb Explosion Imaging[J]. Scientific Reports, 2016, 6: 38202.
[10] Radwell N, Clark T, Piccirillo B, et al. Spatially dependent electromagnetically induced transparency[J]. Physical Review Letters, 2015, 114(12): 123603.
[11] Paul P M, Clatterbuck T O, Lyngå C, et al. Enhanced high harmonic generation from an optically prepared excited medium[J]. Physical Review Letters, 2005, 94(11): 113906.
[12] Gaarde M B, Schafer K J, Kulander K C, et al. Strong species dependence of high order photoelectron production in alkali metal atoms[J]. Physical Review Letters, 2000, 84(13): 2822-2825.
[13] Raab E L, Prentiss M, Cable A, et al. Trapping of neutral sodium atoms with radiation pressure[J]. Physical Review Letters, 1987, 59(23): 2631-2634.
[14] Wolf S, Helm H. Ion-recoil energy measurement in photoionization of laser-cooled rubidium[J]. Physical Review A, 1997, 56(6): R4385-R4388.
[15] Hubele R, Schuricke M, Goullon J, et al. Electron and recoil ion momentum imaging with a magneto-optically trapped target[J]. Review of Scientific Instruments, 2015, 86(3): 033105.
[16] Turkstra J W, Hoekstra R, Knoop S, et al. Recoil momentum spectroscopy of highly charged ion collisions on magneto-optically trapped Na[J]. Physical Review Letters, 2001, 87(12): 123202.
[17] Blieck J, Fléchard X, Cassimi A, et al. A new magneto-optical trap-target recoil ion momentum spectroscopy apparatus for ion-atom collisions and trapped atom studies[J]. Review of Scientific Instruments, 2008, 79(10): 103102.
[18] Ivanov I A, Kheifets A S, Calvert J E, et al. Transverse electron momentum distribution in tunneling and over the barrier ionization by laser pulses with varying ellipticity[J]. Scientific Reports, 2016, 6: 19002.
[19] 冷雨欣. 上海超强超短激光实验装置[J]. 中国激光, 2019, 46(1): 0100001.
[20] 朱晓农, 包文霞. 超短脉冲激光及其相关应用的一些基本知识[J]. 中国激光, 2019, 46(12): 1200001.
[21] Li R, Yuan J, Wang X, et al. Recoil-ion momentum spectroscopy for cold rubidium in a strong femtosecond laser field[J]. Journal of Instrumentation, 2019, 14(2): P02022.
[22] Chu S, Hollberg L, Bjorkholm J E, et al. Three-dimensional viscous confinement and cooling of atoms by resonance radiation pressure[J]. Physical Review Letters, 1985, 55(1): 48-51.
[23] Walhout M, Sterr U, Orzel C, et al. Optical control of ultracold collisions in metastable xenon[J]. Physical Review Letters, 1995, 74(4): 506-509.
[24] Thompson D J, Murphy D, Speirs R W, et al. Suppression of emittance growth using a shaped cold atom electron and ion source[J]. Physical Review Letters, 2016, 117(19): 193202.
[25] Townsend C G, Edwards N H, Zetie K P, et al. High-density trapping of cesium atoms in a dark magneto-optical trap[J]. Physical Review A, 1996, 53(3): 1702-1714.
[26] 王义遒. 原子的激光冷却与陷俘[M]. 北京: 北京大学出版社, 2007: 268- 270.
W YQ. Laser cooling and trapping of atoms[M]. Beijing: Peking University Press, 2007: 268- 270.
[27] Yuan J Y, Ma Y X, Li R Y, et al. Momentum spectroscopy for multiple ionization of cold rubidium in the elliptically polarized laser field[J]. Chinese Physics Letters, 2020, 37(5): 053201.
[28] Salzmann W, Mullins T, Eng J, et al. Coherent transients in the femtosecond photoassociation of ultracold molecules[J]. Physical Review Letters, 2008, 100(23): 233003.
[29] Yang H, Zhang D C, Liu L, et al. Observation of magnetically tunable Feshbach resonances in ultracold 23Na 40K+ 40K collisions[J]. Science, 2019, 363(6424): 261-264.
[30] Takei N, Sommer C, Genes C, et al. Direct observation of ultrafast many-body electron dynamics in an ultracold Rydberg gas[J]. Nature Communications, 2016, 7: 13449.
马祎璇, 李任远, 袁俊阳, 孟秋香, 马欢玉, 阮舒舒, 张逸竹, 阎天民, 沈镇捷, 王新成, 江玉海. 冷原子成像谱仪中靶表征及光电离研究[J]. 中国激光, 2020, 47(6): 0601011. Ma Yixuan, Li Renyuan, Yuan Junyang, Meng Qiuxiang, Ma Huanyu, Ruan Shushu, Zhang Yizhu, Yan Tianmin, Shen Zhenjie, Wang Xincheng, Jiang Yuhai. Target Characterization and Photoionization Study in Cold Atom Imaging Spectrometer[J]. Chinese Journal of Lasers, 2020, 47(6): 0601011.
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