[1] Krausz F, Ivanov M. Attosecond physics[J]. Reviews of Modern Physics, 2009, 81(1): 163-234.
Krausz F, Ivanov M. Attosecond physics[J]. Reviews of Modern Physics, 2009, 81(1): 163-234.
[2] Corkum P B. Plasma perspective on strong field multiphoton ionization[J]. Physical Review Letters, 1993, 71(13): 1994-1997.
Corkum P B. Plasma perspective on strong field multiphoton ionization[J]. Physical Review Letters, 1993, 71(13): 1994-1997.
[3] 徐至展, 张正泉, 李学信, 等. 利用超快强光场产生的高次谐波获得相干软X射线辐射[J]. 光学学报, 1997, 17(7): 957-958.
徐至展, 张正泉, 李学信, 等. 利用超快强光场产生的高次谐波获得相干软X射线辐射[J]. 光学学报, 1997, 17(7): 957-958.
Xu Z Z, Zhang Z Q, Li X X, et al. Coherent soft X-ray radiation obtained by high-order harmonic generation[J]. Acta Optica Sinica, 1997, 17(7): 957-958.
Xu Z Z, Zhang Z Q, Li X X, et al. Coherent soft X-ray radiation obtained by high-order harmonic generation[J]. Acta Optica Sinica, 1997, 17(7): 957-958.
[4] 张路遥, 戴晔, 郑颖辉, 等. 采用多喷嘴阵列产生高亮度高次谐波[J]. 中国激光, 2017, 44(10): 1001002.
张路遥, 戴晔, 郑颖辉, 等. 采用多喷嘴阵列产生高亮度高次谐波[J]. 中国激光, 2017, 44(10): 1001002.
Zhang L Y, Dai Y, Zheng Y H, et al. Bright high-order harmonic generation via multi-jet arrays[J]. Chinese Journal of Lasers, 2017, 44(10): 1001002.
Zhang L Y, Dai Y, Zheng Y H, et al. Bright high-order harmonic generation via multi-jet arrays[J]. Chinese Journal of Lasers, 2017, 44(10): 1001002.
[5] Itatani J, Levesque J, Zeidler D, et al. Tomographic imaging of molecular orbitals[J]. Nature, 2004, 432(7019): 867-871.
Itatani J, Levesque J, Zeidler D, et al. Tomographic imaging of molecular orbitals[J]. Nature, 2004, 432(7019): 867-871.
[6] Miao J W, Ishikawa T, Robinson I K, et al. Beyond crystallography: Diffractive imaging using coherent X-ray light sources[J]. Science, 2015, 348(6234): 530-535.
Miao J W, Ishikawa T, Robinson I K, et al. Beyond crystallography: Diffractive imaging using coherent X-ray light sources[J]. Science, 2015, 348(6234): 530-535.
[7] Haworth C A, Chipperfield L E, Robinson J S, et al. Half-cycle cutoffs in harmonic spectra and robust carrier-envelope phase retrieval[J]. Nature Physics, 2007, 3: 52-57.
Haworth C A, Chipperfield L E, Robinson J S, et al. Half-cycle cutoffs in harmonic spectra and robust carrier-envelope phase retrieval[J]. Nature Physics, 2007, 3: 52-57.
[8] Chang Z, Corkum P B, Leone S R. Attosecond optics and technology: Progress to date and future prospects[J]. Journal of the Optical Society of America B, 2016, 33(6): 1081-1097.
Chang Z, Corkum P B, Leone S R. Attosecond optics and technology: Progress to date and future prospects[J]. Journal of the Optical Society of America B, 2016, 33(6): 1081-1097.
[9] Calegari F, Sansone G, Stagira S, et al. Advances in attosecond science[J]. Journal of Physics B: Atomic, Molecular and Optical Physics, 2016, 49(6): 062001.
Calegari F, Sansone G, Stagira S, et al. Advances in attosecond science[J]. Journal of Physics B: Atomic, Molecular and Optical Physics, 2016, 49(6): 062001.
[10] Krausz F. The birth of attosecond physics and its coming of age[J]. Physica Scripta, 2016, 91: 063011.
Krausz F. The birth of attosecond physics and its coming of age[J]. Physica Scripta, 2016, 91: 063011.
[11] 徐小虎, 夏昌龙, 郭志伟, 等. 啁啾场调控的高次谐波空间分布及孤立阿妙脉冲产生研究[J]. 中国激光, 2018, 45(6): 0601007.
徐小虎, 夏昌龙, 郭志伟, 等. 啁啾场调控的高次谐波空间分布及孤立阿妙脉冲产生研究[J]. 中国激光, 2018, 45(6): 0601007.
Xu X H, Xia C L, Guo Z W, et al. Study on the spatial distribution of high-order harmonic emission in few-cycle chirped laser pulse and the isolated attosecond pulse generation[J]. Chinese Journal of Lasers, 2018, 45(6): 0601007.
Xu X H, Xia C L, Guo Z W, et al. Study on the spatial distribution of high-order harmonic emission in few-cycle chirped laser pulse and the isolated attosecond pulse generation[J]. Chinese Journal of Lasers, 2018, 45(6): 0601007.
[12] 李学信, 徐至展, 张文琦. 初始粒子数布居数对高次谐波的影响[J]. 中国激光, 1997, 24(12): 1124-1128.
李学信, 徐至展, 张文琦. 初始粒子数布居数对高次谐波的影响[J]. 中国激光, 1997, 24(12): 1124-1128.
Li X X, Xu Z Z, Zhang W Q. The effect of initial population on the generation of high order harmonics[J]. Chinese Journal of Lasers, 1997, 24(12): 1124-1128.
Li X X, Xu Z Z, Zhang W Q. The effect of initial population on the generation of high order harmonics[J]. Chinese Journal of Lasers, 1997, 24(12): 1124-1128.
[13] Zhai Z, Chen J, Yan Z C, et al. Direct probing of electronic density distribution of a Rydberg state by high-order harmonic generation in a few-cycle laser pulse[J]. Physical Review A, 2010, 82(4): 043422.
Zhai Z, Chen J, Yan Z C, et al. Direct probing of electronic density distribution of a Rydberg state by high-order harmonic generation in a few-cycle laser pulse[J]. Physical Review A, 2010, 82(4): 043422.
[14] Zhai Z, Zhu Q R, Chen J, et al. High-order harmonic generation with Rydberg atoms by using an intense few-cycle pulse[J]. Physical Review A, 2011, 83(4): 043409.
Zhai Z, Zhu Q R, Chen J, et al. High-order harmonic generation with Rydberg atoms by using an intense few-cycle pulse[J]. Physical Review A, 2011, 83(4): 043409.
[15] Yang Y J, Chen J G, Chi F P, et al. Ultrahigh harmonic generation from an atom with superposition of ground state and highly excited states[J]. Chinese Physics Letters, 2007, 24(6): 1537-1540.
Yang Y J, Chen J G, Chi F P, et al. Ultrahigh harmonic generation from an atom with superposition of ground state and highly excited states[J]. Chinese Physics Letters, 2007, 24(6): 1537-1540.
[16] Chacón A, Ciappina M F, Conde A P. High-order harmonic generation enhanced by coherent population return[J]. The European Physical Journal D, 2015, 69: 133.
Chacón A, Ciappina M F, Conde A P. High-order harmonic generation enhanced by coherent population return[J]. The European Physical Journal D, 2015, 69: 133.
[17] Yuan X L, Wei P F, Liu C D, et al. Enhanced high-order harmonic generation from excited argon[J]. Applied Physics Letters, 2015, 107(4): 041110.
Yuan X L, Wei P F, Liu C D, et al. Enhanced high-order harmonic generation from excited argon[J]. Applied Physics Letters, 2015, 107(4): 041110.
[18] Bleda E A, Yavuz I. Altun, et al. High-order-harmonic generation from Rydberg states at fixed Keldysh parameter[J]. Physical Review A, 2013, 88(4): 043417.
Bleda E A, Yavuz I. Altun, et al. High-order-harmonic generation from Rydberg states at fixed Keldysh parameter[J]. Physical Review A, 2013, 88(4): 043417.
[19] Dörr M, Sandner W. Importance of excited bound states in harmonic generation[J]. Physical Review A, 1998, 58(4): 2990-2999.
Dörr M, Sandner W. Importance of excited bound states in harmonic generation[J]. Physical Review A, 1998, 58(4): 2990-2999.
[20] Mohebbi M. Controlling the ionization and recombination rates of an electron in preexcited ions to generate an intense isolated sub-4-as pulse in a multicycle regime[J]. Physical Review A, 2015, 91(2): 023835.
Mohebbi M. Controlling the ionization and recombination rates of an electron in preexcited ions to generate an intense isolated sub-4-as pulse in a multicycle regime[J]. Physical Review A, 2015, 91(2): 023835.
[21] Chini M, Wang X W, Cheng Y, et al. Coherent phase-matched VUV generation by field-controlled bound states[J]. Nature Photonics, 2014, 8: 437-441.
Chini M, Wang X W, Cheng Y, et al. Coherent phase-matched VUV generation by field-controlled bound states[J]. Nature Photonics, 2014, 8: 437-441.
[22] Xiong W H, Jin J Z, Peng L Y, et al. Numerical observation of two sets of low-order harmonics near the ionization threshold[J]. Physical Review A, 2017, 96(2): 023418.
Xiong W H, Jin J Z, Peng L Y, et al. Numerical observation of two sets of low-order harmonics near the ionization threshold[J]. Physical Review A, 2017, 96(2): 023418.
[23] Beaulieu S, Camp S, Descamps D, et al. Role of excited states in high-order harmonic generation[J]. Physical Review Letters, 2016, 117(20): 203001.
Beaulieu S, Camp S, Descamps D, et al. Role of excited states in high-order harmonic generation[J]. Physical Review Letters, 2016, 117(20): 203001.
[24] Li P C, Laughlin C, Chu S I. Generation of isolated sub-20-attosecond pulses from He atoms by two-color midinfrared laser fields[J]. Physical Review A, 2014, 89(2): 023431.
Li P C, Laughlin C, Chu S I. Generation of isolated sub-20-attosecond pulses from He atoms by two-color midinfrared laser fields[J]. Physical Review A, 2014, 89(2): 023431.
[25] Tong X M, Chu S I. Theoretical study of multiple high-order harmonic generation by intense ultrashort pulsed laser fields: A new generalized pseudospectral time-dependent method[J]. Chemical Physics, 1997, 217(2): 119-130.
Tong X M, Chu S I. Theoretical study of multiple high-order harmonic generation by intense ultrashort pulsed laser fields: A new generalized pseudospectral time-dependent method[J]. Chemical Physics, 1997, 217(2): 119-130.
[26] Hermann M R, Fleck J A. Jr. Split-operator spectral method for solving the time-dependent Schrödinger equation in spherical coordinates[J]. Physical Review A, 1988, 38(12): 6000-6012.
Hermann M R, Fleck J A. Jr. Split-operator spectral method for solving the time-dependent Schr?dinger equation in spherical coordinates[J]. Physical Review A, 1988, 38(12): 6000-6012.
[27] NIST. Atomic Spectra Database[DB/OL]. (
2017-
11-
15)[2017-12-15].
.
http://physics.nist.gov/asd
NIST. Atomic Spectra Database[DB/OL]. (
2017-
11-
15)[2017-12-15].
.
http://physics.nist.gov/asd