[1] Xu G L, Da C, Ni Q L et al. Reconfigurable optoelectronic chaotic logic gates in vertical cavity surface emitting laser with optical feedback[J]. Chinese Journal of Lasers, 47, 1206003(2020).

[2] Sun W Y, Hu B J, Wang H. Chaos synchronization communication based on dual-path mutual coupling semiconductor lasers[J]. Laser & Optoelectronics Progress, 56, 211404(2019).

[3] Zhang Y N, Xu A S, Feng Y L et al. Chaos characteristics of the output from a semiconductor laser subject to optoelectronic feedback[J]. Acta Optica Sinica, 40, 1214001(2020).

[4] Sciamanna M, Shore K A. Physics and applications of laser diode chaos[J]. Nature Photonics, 9, 151-162(2015).

[5] Nguimdo R M, Colet P, Larger L et al. Digital key for chaos communication performing time delay concealment[J]. Physical Review Letters, 107, 034103(2011).

[6] Rontani D, Choi D, Chang C Y et al. Compressive sensing with optical chaos[J]. Scientific Reports, 6, 35206(2016).

[7] Jiang N, Xue C P, Lü Y et al. Physically enhanced secure wavelength division multiplexing chaos communication using multimode semiconductor lasers[J]. Nonlinear Dynamics, 86, 1937-1949(2016).

[8] Tanaka G, Yamane T, Héroux J B et al. Recent advances in physical reservoir computing: a review[J]. Neural Networks, 115, 100-123(2019).

[9] Mercier É, Weicker L, Wolfersberger D et al. High-order external cavity modes and restabilization of a laser diode subject to a phase-conjugate feedback[J]. Optics Letters, 42, 306-309(2017).

[10] Weicker L, Uy C H, Wolfersberger D et al. Mapping of external cavity modes for a laser diode subject to phase-conjugate feedback[J]. Chaos, 27, 114314(2017).

[11] Green K, Krauskopf B. Bifurcation analysis of a semiconductor laser subject to non-instantaneous phase-conjugate feedback[J]. Optics Communications, 231, 383-393(2004).

[12] Sattar Z A, Shore K A. Phase conjugate feedback effects in nano-lasers[J]. IEEE Journal of Quantum Electronics, 52, 1-8(2016).

[13] Jiang N, Zhao A K, Liu S Q et al. Injection-locking chaos synchronization and communication in closed-loop semiconductor lasers subject to phase-conjugate feedback[J]. Optics Express, 28, 9477-9486(2020).

[14] Mercier É, Wolfersberger D, Sciamanna M. Bifurcation to chaotic low-frequency fluctuations in a laser diode with phase-conjugate feedback[J]. Optics Letters, 39, 4021-4024(2014).

[15] Bouchez G, Uy C H, Macias B et al. Wideband chaos from a laser diode with phase-conjugate feedback[J]. Optics Letters, 44, 975-978(2019).

[16] O’Brien D, Huyet G, McInerney J G. Low-frequency fluctuations in a semiconductor laser with phase conjugate feedback[J]. Physical Review A, 64, 025802(2001).

[17] Virte M, dal Bosco A K, Wolfersberger D et al. Chaos crisis and bistability of self-pulsing dynamics in a laser diode with phase-conjugate feedback[J]. Physical Review A, 84, 043836(2011).

[18] Green K, Krauskopf B. Global bifurcations and bistability at the locking boundaries of a semiconductor laser with phase-conjugate feedback[J]. Physical Review E, 66, 016220(2002).

[19] Weicker L, Wolfersberger D, Sciamanna M. Stability analysis of a quantum cascade laser subject to phase-conjugate feedback[J]. Physical Review E, 98, 012214(2018).

[20] Gelens L, van der Sande G, Beri S et al. Phase-space approach to directional switching in semiconductor ring lasers[J]. Physical Review E, 79, 016213(2009).

[21] Nguimdo R M, Verschaffelt G, Danckaert J et al. Loss of time-delay signature in chaotic semiconductor ring lasers[J]. Optics Letters, 37, 2541-2543(2012).

[22] Mashal L, van der Sande G, Gelens L et al. Square-wave oscillations in semiconductor ring lasers with delayed optical feedback[J]. Optics Express, 20, 22503-22516(2012).

[23] Li S S, Li X Z, Zhuang J P et al. Square-wave oscillations in a semiconductor ring laser subject to counter-directional delayed mutual feedback[J]. Optics Letters, 41, 812-815(2016).

[24] Li N Q, Nguimdo R M, Locquet A et al. Enhancing optical-feedback-induced chaotic dynamics in semiconductor ring lasers via optical injection[J]. Nonlinear Dynamics, 92, 315-324(2018).

[25] Javaloyes J, Balle S. All-optical directional switching of bistable semiconductor ring lasers[J]. IEEE Journal of Quantum Electronics, 47, 1078-1085(2011).

[26] Syed A, Tafazoli M, Davoudzadeh N et al. An all-optical proteretic switch using semiconductor ring lasers[J]. Optics Communications, 475, 126252(2020).

[27] Verschaffelt G, Khoder M, van der Sande G. Optical feedback sensitivity of a semiconductor ring laser with tunable directionality[J]. Photonics, 6, 112-123(2019).

[28] Sorel M, Giuliani G, Scire A et al. Operating regimes of GaAs-AlGaAs semiconductor ring lasers: experiment and model[J]. IEEE Journal of Quantum Electronics, 39, 1187-1195(2003).

[29] Kelleher B, Tykalewicz B, Goulding D et al. Two-color bursting oscillations[J]. Scientific Reports, 7, 8414(2017).

[30] Yamazaki T, Uchida A. Performance of random number generators using noise-based superluminescent diode and chaos-based semiconductor lasers[J]. IEEE Journal of Selected Toptics in Quantum Electronics, 19, 0600309(2013).