[1] 沈炎龙, 周松青, 谌鸿伟, 等. 中红外2.8 μm光纤激光器机械调Q工作特性［J］. 光学学报, 2016, 36(1): 0114002.

    Shen Y L, Zhou S Q, Chen H W, et al. Output characteristics of Q-switched mid-infrared fiber laser with a mechanical chopper［J］. Acta Optica Sinica, 2016, 36(1): 0114002.

[2] 郑也, 杨依枫, 赵翔, 等. 高功率光纤激光光谱合成技术的研究进展［J］. 中国激光, 2017, 44(2): 0201002.

    Zheng Y, Yang Y F, Zhao X, et al. Research progress on spectral beam combining technology of high-power fiber lasers［J］. Chinese Journal of Lasers, 2017, 44(2): 0201002.

[3] 刘江, 谭方舟, 刘晨, 等. 高功率超短脉冲掺铥光纤激光器的研究进展［J］. 中国激光, 2017, 44(2): 0201003.

    Liu J, Tan F Z, Liu C, et al. Progress on high-power ultrashort-pulsed thulium-doped fiber lasers［J］. Chinese Journal of Lasers, 2017, 44(2): 0201003.

[4] Gopal R, Simeonidis K, Moshammer R, et al. Three-dimensional momentum imaging of electron wave packet interference in few-cycle laser pulses［J］. Physical Review Letters, 2009, 103(5): 053001.

[5] Blaga C I, Catoire F, Colosimo P, et al. Strong-field photoionization revisited［J］. Nature Physics, 2009, 5: 335-338.

[6] Quan W, Lin Z, Wu M, et al. Classical aspects in above-threshold ionization with a midinfrared strong laser field［J］. Physical Review Letters, 2009, 103(9): 093001.

[7] 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(1): 013001.

[8] Kstner A, Saalmann U, Rost J M. Electron-energy bunching in laser-driven soft recollisions［J］. Physical Review Letters, 2012, 108(3): 033201.

[9] Lin C D,Le A T, Chen Z J, et al. Strong-field rescattering physics-self-imaging of a molecule by its own electrons［J］. Journal of Physics B: Atomic, Molecular and Optical Physics, 2010, 43(12): 122001.

[10] Morishita T, Le A T, Chen Z J, et al. Accurate retrieval of structural information from laser-induced photoelectron and high-order harmonic spectra by few-cycle laser pulses［J］. Physical Review Letters, 2008, 100(1): 013903.

[11] Xu J, Zhou H L, Chen Z J, et al. Genetic-algorithm implementation of atomic potential reconstruction from differential electron scattering cross sections［J］. Physical Review A, 2009, 79(5): 052508.

[12] Blaga C I, Xu J L, DiChiara A D, et al. Imaging ultrafast molecular dynamics with laser-induced electron diffraction［J］. Nature, 2012, 483(7388): 194-197.

[13] Chen Z J, Morishita T, Le A T, et al. Analysis of two-dimensional photoelectron momentum spectra and the effect of the long-range Coulomb potential in single ionization of atoms by intense lasers［J］. Physical Review A, 2006, 74(5): 053405.

[14] Chen Z J, Le A T, Morishita T, et al. Quantitative rescattering theory for laser-induced high-energy plateau photoelectron spectra［J］. Physical Review A, 2009, 79(3): 033409.

[15] Guo Z J, Chen Z J, Zhou X X. Origin of diffraction fringes in two-dimensional photoelectron momentum distributions for single ionization of atoms in few-cycle intense laser pulses［J］. Chinese Physics B, 2014, 23(4): 043201.

[16] Zhang J T, Nakajima T. Coulomb effects in photoionization of H atoms irradiated by intense laser fields［J］. Physical Review A, 2007, 75(4): 043403.

[17] Morishita T, Chen Z J, Watanabe S, et al. Two-dimensional electron momentum spectra of argon ionized by short intense lasers: comparison of theory with experiment［J］. Physical Review A, 2007, 75(2): 023407.

[18] DuBois R D, Rudd M E. Differential cross sections for elastic scattering of electrons from argon, neon, nitrogen and carbon monoxide［J］. Journal of Physics B: Atomic and Molecular Physics, 1976, 9(15): 2657-2667.

[19] Srivastava S K, Tanaka H, Chutjian A, et al. Elastic scattering of intermediate-energy electrons by Ar and Kr［J］. Physical Review A, 1981, 23(5): 2156-2166.

[20] Vuskovic L, Kurepa M V. Differential cross sections of 60-150 eV electrons elastically scattered in argon［J］. Journal of Physics B: Atomic and Molecular Physics, 1976, 9(5): 837-842.