Acta Optica Sinica, Volume. 43, Issue 3, 0319001(2023)
Ultrashort Chirped Pulse Amplification in Fiber Based on Deep Learning
References(29)
[1] Genty G, Salmela L, Dudley J M et al. Machine learning and applications in ultrafast photonics[J]. Nature Photonics, 15, 91-101(2021).
[2] Bigourd D, D′Augerès P B, Dubertrand J et al. Ultra-broadband fiber optical parametric amplifier pumped by chirped pulses[J]. Optics Letters, 39, 3782-3785(2014).
[3] Zhou P, Leng J Y, Xiao H et al. High average power fiber lasers: research progress and future prospect[J]. Chinese Journal of Lasers, 48, 2000001(2021).
[4] Ye R, Yin M, Wu X Y et al. Theoretical study of spectrum shaping of chirped pulse in OPCPA with angular spectral dispersion[J]. Laser & Optoelectronics Progress, 55, 041901(2018).
[5] Shang J C, Liu Y Z, Zhao S Z et al. High repetition-rate optical parametric chirped-pulse amplifiers[J]. Chinese Journal of Lasers, 48, 1201004(2021).
[6] Li Q L, Zhu Y F, Jin J. The impact of stimulated Raman scattering and polarization effect on the gain of fiber optical parametric amplifier[J]. Chinese Journal of Lasers, 36, 61-65(2009).
[7] Cao H B, Wang H S, Yuan H et al. Research progress of mid-infrared femtosecond sources based on optical parametric amplification(invited)[J]. Acta Photonica Sinica, 49, 1149005(2020).
[8] Li W, Wang X, Hu B L et al. Dispersion-compensation scheme of optical parameter chirp reversal pulse amplification system[J]. Chinese Journal of Lasers, 47, 0601008(2020).
[9] Wang B P, Su J Q, Zeng X M et al. Theoretical and experimental study on parametric fluorescence pulse width[J]. Acta Optica Sinica, 36, 0519001(2016).
[10] Pan X, Li X C, Wang J F et al. Study on stability of arbitrary spectral shaping using optical parametric chirped pulse amplification[J]. Chinese Journal of Lasers, 38, 0102004(2011).
[11] Li X H, Zeng S G, Zhang B et al. Theoretical analysis on chirp matched optical parametric chirped pulse amplification[J]. Laser & Optoelectronics Progress, 47, 071901(2010).
[12] Wang Y H. Two-stage noncollinear optical parametric amplification approaching single cycle[J]. Acta Optica Sinica, 35, 0819002(2015).
[13] Li X H, Zeng S G, Zhang B et al. Influence of chirp match and synchronization jitter on optical parametric chirped pulse amplification[J]. High Power Laser and Particle Beams, 22, 2824-2828(2010).
[14] Bigourd D, Lago L, Kudlinski A et al. Dynamics of fiber optical parametric chirped pulse amplifiers[J]. Journal of the Optical Society of America B, 28, 2848-2854(2011).
[15] Bigourd D, Dutin C, Vanvincq O et al. Numerical analysis of broadband fiber optical parametric amplifiers pumped by two chirped pulses[J]. Journal of the Optical Society of America B, 33, 1800-1807(2016).
[16] Mussot A, Kudlinski A, D′Augères P B et al. Amplification of ultra-short optical pulses in a two-pump fiber optical parametric chirped pulse amplifier[J]. Optics Express, 21, 12197-12203(2013).
[17] Vanvincq O, Fourcade-Dutin C, Mussot A et al. Ultrabroadband fiber optical parametric amplifiers pumped by chirped pulses. Part 1: analytical model[J]. Journal of the Optical Society of America B, 32, 1479-1487(2015).
[18] Fourcade-Dutin C, Vanvincq O, Mussot A et al. Ultrabroadband fiber optical parametric amplifier pumped by chirped pulses. Part 2: sub-30-fs pulse amplification at high gain[J]. Journal of the Optical Society of America B, 32, 1488-1493(2015).
[19] Zhu H N, Zhu Z Y, Li P P et al. The analysis and optimization of broadband fiber optical parametric amplifiers pumped by chirped pulses[J]. IEEE Journal of Selected Topics in Quantum Electronics, 25, 3100108(2019).
[20] Marhic M E[M]. Fiber optical parametric amplifiers, oscillators related devices, 146-181(2007).
[21] Agrawal G P[M]. Nonlinear fiber optics(2007).
[22] Salmela L, Tsipinakis N, Foi A et al. Predicting ultrafast nonlinear dynamics in fibre optics with a recurrent neural network[J]. Nature Machine Intelligence, 3, 344-354(2021).
[23] Wang R Q, Ling L M, Zeng D L et al. A deep learning improved numerical method for the simulation of rogue waves of nonlinear Schrödinger equation[J]. Communications in Nonlinear Science and Numerical Simulation, 101, 105896(2021).
[24] Gautam N, Choudhary A, Lall B. Comparative study of neural network architectures for modelling nonlinear optical pulse propagation[J]. Optical Fiber Technology, 64, 102540(2021).
[25] Wang D S, Song Y C, Li J et al. Data-driven optical fiber channel modeling: a deep learning approach[J]. Journal of Lightwave Technology, 38, 4730-4743(2020).
[26] Sui H, Zhu H N, Cheng L et al. Deep learning based pulse prediction of nonlinear dynamics in fiber optics[J]. Optics Express, 29, 44080-44092(2021).
[27] Sidelnikov O, Redyuk A, Sygletos S et al. Advanced convolutional neural networks for nonlinearity mitigation in long-haul WDM transmission systems[J]. Journal of Lightwave Technology, 39, 2397-2406(2021).
[28] Tay K G, Pakarzadeh H, Huong A et al. Gain prediction of dual-pump fiber optic parametric amplifier based on artificial neural network[J]. Optik, 253, 168579(2022).
[29] Sui H, Zhu H N, Wu J et al. Modeling pulse propagation in fiber optical parametric amplifier by a long short-term memory network[J]. Optik, 260, 169125(2022).
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Hao Sui, Hongna Zhu, yan Zhang, Bin Luo, Xihua Zou. Ultrashort Chirped Pulse Amplification in Fiber Based on Deep Learning[J]. Acta Optica Sinica, 2023, 43(3): 0319001
Paper Information
Category: Nonlinear Optics
Received: Jul. 11, 2022
Accepted: Aug. 22, 2022
Published Online: Feb. 13, 2023
The Author Email: Zhu Hongna (hnzhu@swjtu.edu.cn)
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