金沙游戏官网(澳门js金沙)有限公司

夏光琼，女，汉族，四川富顺人。中共党员，博士，教授，博(硕)士生导师/博士后合作导师。分别于1992年、1995年毕业于四川大学光电科学技术系光学专业，获理学学士和硕士学位；2002年毕业于四川大学电子信息澳门js金沙，获理学博士学位；2006年在美国加州大学洛杉矶分校(UCLA)进行了为期半年的合作研究。1995年起一直在金沙游戏官网从事教学和科研工作。曾任二、三届重庆市光学学会副理事长，现为中国密码学会混沌保密通信专业委员会委员。

从事半导体激光非线性动力学、光混沌保密通信、微波光子学、光混沌雷达及面向人工智能的光子储备池计算等方面的研究工作。主持完成科研课题10余项；在国内外主流学术刊物上发表论文逾200篇；受邀在相关国内外学术会议上作学术报告近20次；申请或授权国家专利10余项；2项成果获重庆市人民政府自然科学奖；已培养博士后、博/硕士生70多人。主要承担光学、非线性光学等本科和研究生课程的教学任务。

E-mail: gqxia@swu.edu.cn

近年承担的主要科研项目

1. 国家自然科学基金面上项目：基于单片集成放大反馈半导体激光器的超快光子储备池计算 (批准号: 61875167), 2019.01-2022.12

2. XX技术有限公司委托项目：XX激光XX关键技术, 2018.10-2021.09

3. 国家自然科学基金面上项目: 基于垂直腔面发射激光器实时产生多路高速物理随机数的相关理论和技术探索 (批准号: 61575163), 2016.01-2019.12

4. 国家自然科学基金面上项目：1550nm垂直腔面发射激光器的非线性动力学及其在光生毫米波中的应用研究(批准号: 61275116), 2013.01-2016.12

5. 国家自然科学基金面上项目：基于半导体激光器的10GHz带宽光纤超混沌保密通信理论与实验研究(批准号: 61078003), 2011.01-2013.12

获奖情况

1. 2013年度重庆市科学技术奖自然科学奖三等奖. 成果名称: 高性能光混沌信号获取的基础理论和关键技术研究; 获奖时间: 2014年; 奖励授予单位: 重庆市人民政府; 本人排名：第一完成人

2. 2014年度重庆市科学技术奖自然科学奖二等奖. 成果名称: 基于半导体激光器的光混沌同步与保密通信研究; 获奖时间: 2015年; 奖励授予单位: 重庆市人民政府; 本人排名：第二完成人

部分代表性第一/通讯(*)作者学术论文

1. G. Xia (夏光琼), Z. Wu, J. Chen*, Y. Lu. Carrier deficit from the nominal threshold density and mode-supression ratio of an above-threshold biased semiconductor laser. Opt. Lett., 1994, 19(10): 731-733

2. G. Xia, Z. Wu, J. Chen*, Y. Lu. Studying semiconductor lasers with multimode rate equations. Appl. Opt., 1995, 34(9): 1523-1527

3. G. Xia*, Z. Wu, G. Lin. Rising and falling time of amplified picosecond optical pulses by semiconductor optical amplifiers. Opt. Commun., 2003, 227(1-3): 165-170

4. G. Xia*, Z. Wu, J. Wu. Theory and simulation of dual-channel optical chaotic communication system. Opt. Express, 2005, 13(9): 3445-3453

5. G. Xia*, Z. Wu, X. Jia. Theoretical investigation on commanding the bistability and self-pulsation of bistable semiconductor laser diode using delayed optoelectronic feedback. IEEE/OSA J. Lightwave Technol., 2005, 23(12): 4296-4304

6. G. Xia*, S. C. Chan, J. M. Liu. Multistability in a semiconductor laser with optoelectronic feedback. Opt. Express, 2007, 15(2): 572-576

7. G. Xia*, Z. Wu, J. Liao. Theoretical investigations of cascaded chaotic synchronization and communication based on the optoelectronic negative feedback semiconductor lasers. Opt. Commun., 2009, 282(5): 1009-1015

8. G. Xia*, Z. Wu, Q. Yang, X. Lin. Modulation response performances of a Fabry-Perot semiconductor laser subject to light injection from another Fabry-Perot semiconductor laser. Chin. Sci. Bulletin, 2009, 54(20): 3643-3648

9. X. Jia, Z. Wu, G. Xia*. Analysis of bistable steady characteristics and dynamic stability of linearly tapered nonlinear bragg gratings. Opt. Express, 2004, 12(13): 2945-2953

10. J. Liu, Z. Wu, G. Xia*. Dual-channel chaos synchronization and communication based on unidirectionally coupled VCSELs with polarization-rotated optical feedback and polarization-rotated optical injection. Opt. Express, 2009, 17(15): 12619-12626

11. J. Wu, Z. Wu, G. Xia*, G. Feng. Evolution of time delay signature of chaos generated in a mutually delay-coupled semiconductor lasers system. Opt. Express, 2012, 20(2): 1741-1753

12. J. Wu, L. Zhao, Z. Wu, D. Lu, X. Tang, Z. Zhong, G. Xia*. Direct generation of broadband chaos by a monolithic integrated semiconductor laser chip. Opt. Express, 2013, 21(20): 23358-23364

13. Y. Li, Z. Wu*, Z. Zhong, X. Yang, S. Mao, G. Xia*. Time-delay signature of chaos in 1550 nm VCSELs with variable-polarization FBG feedback. Opt. Express, 2014, 22(16): 19610-19620

14. J. Chen, Z. Wu*, X. Tang, T. Deng, L. Fan, Z. Zhong, G. Xia*. Generation of polarization-resolved wideband unpredictability-enhanced chaotic signals based on vertical-cavity surface-emitting lasers subject to chaotic optical injection. Opt. Express, 2015, 23(6): 7173-7183

15. X. Tang, Z. Wu*, J. Wu, T. Deng, J. Chen, L. Fan, Z. Zhong, G. Xia*. Tbits/s physical random bit generation based on mutually coupled semiconductor laser chaotic entropy source. Opt. Express, 2015, 23(26): 33130-33141

16. L. Fan, G. Xia*, J. Chen, X. Tang, Q. Liang, Z. Wu*, High-purity 60GHz band millimeter-wave generation based on optically injected semiconductor laser under subharmonic microwave modulation. Opt. Express, 2016, 24(16): 18252-18265

17. Y. Hou, G. Xia*, W. Yang, D. Wang, E. Jayaprasath, Z. Jiang, C. Hu, Z. Wu*. Prediction performance of reservoir computing system based on a semiconductor laser subject to double optical feedback and optical injection. Opt. Express, 2018, 26(8): 10211-10219

18. X. Lin, G. Xia*, Z. Shang, T. Deng, X. Tang, L. Fan, Z. Gao, Z. Wu*. Frequency-modulated continuous-wave generation based on an optically injected semiconductor laser with optical feedback stabilization. Opt. Express, 2019, 27(2): 1217-1225

19. D. Yue, Z. Wu*, Y. Hou, B. Cui, Y. Jin, M. Dai, G. Xia*. Performance optimization research of reservoir computing system based on an optical feedback semiconductor laser under electrical information injection, Opt. Express, 2019, 27(14): 19931-19939

20. X. Tan, Y. Hou, Z. Wu*, G. Xia*, Parallel information processing by a reservoir computing system based on a VCSEL subject to double optical feedback and optical injection, Opt. Express, 2019, 27(18): 26070-26079

21. Y. Jin, X. Lin, Z. Wu*, Z. Jiang, D. Yue, W. Yang, L. Fan, G. Xia*, High-quality frequency-modulated continuous-wave generation based on a semiconductor laser subject to cascade-modulated optical injection, Opt. Express, 2021, 29(16): 26265-26274

22. Z. Zhong, Z. Wu*, G. Xia*. Experimental Investigation on the Time-delay Signature of Chaotic Output from a 1550 nm VCSEL Subject to FBG Feedback, Photon. Res., 2017, 5(1): 6-10

23. J. Wu, Z. Wu*, Y. Liu, L. Fan, X. Tang, G. Xia*. Simulation of bidirectional long-distance chaos communication performance in a novel fiber-optic chaos synchronization system. IEEE/OSA J. Lightwave Technol., 2013, 31(3): 461-467

24. L. Fan, Z. Wu*, T. Deng, J. Wu, X. Tang, J. Chen, S. Mao, G. Xia*. Subharmonic Microwave Modulation Stabilization of Tunable Photonic Microwave Generated by Period-one Nonlinear Dynamics of an Optically Injected Semiconductor Laser. IEEE/OSA J. Lightwave Technol., 2014, 32(23): 4058-4064

25. J. Wu, Z. Wu, X. Tang, X. Lin, T. Deng, G. Xia*, G. Feng. Simultaneous generation of two sets of time delay signature eliminated chaotic signals by using mutually coupled semiconductor lasers. IEEE Photon. Technol. Lett., 2011, 23(12): 759-761

26. J. Wu, Z. Wu, G. Xia*, T. Deng, X. Lin, X. Tang, G. Feng. Isochronous synchronization between chaotic semiconductor lasers over 40-km fiber links. IEEE Photon. Technol. Lett., 2011, 23(24): 1854-1856

27. Y. Xie, X. Lin, T. Deng, Z. Wu, L. Fan, Z. Zhong, G. Xia*. Experimental observation of current-induced bistability in a semiconductor laser with positive optoelectronic feedback. IEEE Photon. Technol. Lett., 2012, 24(16): 1434-1436

28. J. Wu, Z. Wu*, L. Fan, X. Tang, W. Deng, G. Xia*. Experimental demonstration of LD-based bidirectional fiber-optic chaos communication. IEEE Photon. Technol. Lett., 2013, 25(6): 587-590

29. Y. Xie, Z. Wu*, T. Deng, X. Tang, L. Fan, G. Xia*. Nonlinear dynamics of 1550 nm VCSELs subject to positive optoelectronic feedback. IEEE Photon. Technol. Lett., 2013, 25(16): 1605-1608

30. T. Deng, Z. Wu*, G. Xia*. Two-mode Coexistence in 1550nm VCSELs with Optical Feedback. IEEE Photon. Technol. Lett., 2015, 27(19): 2075-2078

31. W. Zhu, Z. Wu*, Z. Zhong, X. Yin, J. Song, L. Zhao, D. Lu, G. Xia*. Dynamics of a Monolithically Integrated Semiconductor Laser under Optical Injection. IEEE Photon. Technol. Lett., 2015, 27(20): 2119-2122

32. Z. Zhong, Z. Wu*, J. Song, L. Wang, T. Deng, G. Xia*. Polarization Dynamics of 1550-nm VCSELs Subject to Polarization-Preserved FBG Feedback. IEEE Photon. Technol. Lett., 2016, 28(9): 963-966

33. Z. Zhong, G. Lin*, Z. Wu*, J. Yang, J. Chen, L. Yi, G. Xia*, Tunable broadband chaotic signal synthesis from a WRC-FPLD subject to filtered feedback. IEEE Photon. Technol. Lett., 2017, 29(17): 1506-1509

34. X. Lin, G. Xia*, T. Yang, T. Deng, X. Tang, L. Fan, Z. Gao, Z. Wu*, Photonic Microwave Generation Based on an OISL by Subharmonic Modulation from an OEO, IEEE Photon. Technol. Lett., 2019, 31(22): 1838-1841

35. Z. Zhong, Z. Wu, J. Wu, G. Xia*. Time Delay Signature Suppression of Polarization-Resolved Chaos Outputs from Two Mutually Coupled VCSELs. IEEE Photon. J., 2013, 5(2): 1500409

36. J. Chen, Z. Wu*, T. Deng, X. Tang, X. Yang, G. Xia*. Current- and Feedback-Induced State Bistability in a 1550 nm-VCSEL with Negative Optoelectronic Feedback, IEEE Photon. J., 2017, 9(1): 1500310

37. J. Chen, Z. Wu*, L. Fan, X. Tang, X. Lin, T. Deng, G. Xia*, Polarization bistability in a 1550 nm vertical-cavity surface-emitting laser subject to variable polarization optical injection. IEEE Photon. J., 2017, 9(2): 1502309

38. Y. Li, L. Fan, G. Xia*, Z. Wu*, Tunable and broadband microwave frequency comb generation using optically injected semiconductor laser nonlinear dynamics. IEEE Photon. J., 2017, 9(5): 5502607

39. Y. Hou, L. Yi, G. Xia*, Z. Wu*, Exploring High Quality Chaotic Signal Generation in Mutually Delay Coupled Semiconductor Lasers System. IEEE Photon. J., 2017, 9(5): 1505110

40. X. Lin, Z. Wu*, T. Deng, X. Tang, L. Fan, Z. Gao, G. Xia*, Generation of widely tunable narrow-linewidth photonic microwave signals based on an optoelectronic oscillator using an optically injected semiconductor laser as the active tunable microwave photonic filter, IEEE Photon. J., 2018, 10(6): 5502209

41. L. Fan, G. Xia*, T. Deng, X. Tang, X. Lin, Z. Gao, X. Xu, Z. Wu*, Generation of tunable and ultra-broadband microwave frequency combs based on a semiconductor laser subject to pulse injection from a current modulated laser. IEEE Photon. J., 2018, 10(6): 5502310

42. X. Tang, G. Xia*, C. Ran, T. Deng, X. Lin, L. Fan, Z. Gao, G. Lin*, Z. Wu*. Fast physical random bit generation based on a broadband chaotic entropy source originated from a filtered feedback WRC-FPLD, IEEE Photon. J., 2019, 11(2): 7800710

43. C. Hu, G. Xia*, Z. Jiang, D. Yue, W. Yang, G. Lin*, Z. Wu*, Simultaneous generation of multi-channel broadband chaotic signals based on two unidirectionally coupled WRC-FPLDs, IEEE Photon. J., 2020, 12(5): 1504008

44. Q. Wang, G. Xia*, Z. Jiang, W. Yang, D. Yue, Z. Wu*, Experimental investigations on polarization switching and bistability in a 1550 nm VCSEL subject to orthogonal optical injection with time-varying injection power, IEEE Photon. J., Oct. 2020, 12(5): 1504108

45. D. Yue, Z. Wu*, Y. Hou, C. Hu, Z., G. Xia*, Reservoir Computing Based on Two Parallel Reservoirs under Identical Electrical Message Injection, IEEE Photon. J., Feb. 2021, 13(1): 7800311

46. D. Yue, Y. Hou, Z. Wu*, C. Hu, Z. Xiao, G. Xia*, Experimental investigation of an optical reservoir computing system based on two parallel time-delay reservoirs, IEEE Photon. J., June 2021, 13(3): 8500111

47. B. Jiang, Z. Wu*, T. Deng, J. Chen, F. Yang, J. Chen, Q. Liang, G. Xia*. Polarization Switching Characteristics of 1550-nm Vertical-Cavity Surface-Emitting Lasers Subject to Double Polarization Pulsed Injection, IEEE J. Quantum Electron., 2016, 52(11): 2400707

48. L. Fan, G. Xia*, X. Tang, T. Deng, J. Chen, X. Lin, Y. Li, Z. Wu*, Tunable ultra-broadband microwave frequency combs generation based on a current modulated semiconductor laser under optical injection. IEEE Access, 2017, 5: 17764-17771

49. X. Tang, G. Xia*, E. Jayaprasath, T. Deng, X. Lin, L. Fan, Z. Gao, Z. Wu*, Multi-channel physical random bits generation using a vertical-cavity surface-emitting laser under chaotic optical injection. IEEE Access, 2018, 6: 3565-3572

50. D. Wang, G. Xia*, Y. Hou, W. Yang, E. Jayaprasath, J. Chen, Z. Wu*. Theoretical investigation of state bistability between pure- and mixed-mode states in a 1550-nm VCSEL under parallel optical injection, IEEE Access, 2018, 6: 19791-19797

51. X. Xu, L. Fan, G. Xia*, Z. Wu*. Numerical Investigation on Ultra-broadband Tunable Microwave Frequency Comb Generation Using a Semiconductor Laser Under Regular Pulse Injection, IEEE Access, 2018, 6: 55284-55290

52. E. Jayaprasath, Y. Hou, Z. Wu*, G. Xia*. Anticipation in the polarization chaos synchronization of uni-directionally coupled vertical-cavity surface-emitting lasers with polarization-preserved optical injection. IEEE Access, 2018, 6: 58482-58490

53. D. Yue, Z. Wu*, Y. Hou, G. Xia*, Effects of some operation parameters on the performance of a reservoir computing system based on a delay feedback semiconductor laser with information injection by current modulation, IEEE Access, 2019, 7: 128767-128773

54. J. Tao, Z. Wu*, D. Yue, X. Tan, Q. Zeng, G. Xia*, Performance enhancement of a delay-based reservoir computing system by using gradient boosting technology, IEEE Access, 2020, 8: 151991

55. W. Yang, G. Xia*, Z. Jiang, T. Deng, X. Lin, Y. Jin, Z. Xiao, D. Yue, C. Hu, B. Cui, M. Dai, Z. Wu*, Experimental Investigation on Wideband Optical Frequency Combs Generation Based on a Gain-Switched 1550 nm Multi-Transverse Mode Vertical-Cavity Surface-Emitting Laser Subject to Dual Optical Injection, IEEE Access, 2020, 8: 170203-170210

56. X. Tang, Z. Wu*, J. Wu, T. Deng, L. Fan, Z. Zhong, J. Chen, G. Xia*. Generation of multi-channel high-speed physical random numbers originated from two chaotic signals of mutually coupled semiconductor lasers. Laser Phys. Lett., 2015, 12(1): 015003

57. T. Deng, G. Xia*, Z. Wu. Broadband chaos synchronization and communication based on mutually coupled VCSELs subjected to a bandwidth-enhanced chaotic signal injection. Nonlinear Dyn., 2014, 76(1): 399-407

58. Z. Gao, Z. Wu, L. Cao, G. Xia*. Chaos synchronization of optoelectronic coupled semiconductor lasers ring. Appl. Phys. B, 2009, 97(3): 645-651

59. Y. Hou, G. Xia*, E. Jayaprasath, D. Yue, Z. Wu*. Parallel Information Processing Using a Reservoir Computing System Based on Mutually Coupled Semiconductor Lasers. App. Phys. B, 2020, 126(3): Art. No. 40 (9ps)

60. T. Deng, Z. Wu, Y. Xie, J. Wu, X. Tang, L. Fan, K. Panajotov, G. Xia*. Impact of optical feedback on current-induced polarization behavior of 1550nm vertical-cavity surface-emitting lasers. Appl. Opt., 2013, 52(16): 3833-3837

61. W. Yang, G. Xia*, E. Jayaprasath, Z. Jiang, Y. Hou, C. Hu, Z. Wu*, Experimental investigation on the nonlinear dynamics of two mutually coupled 1550 nm multi-transverse-mode vertical-cavity surface-emitting lasers, Appl. Opt., 2019, 58(5): 1271-1275

62. Z. Jiang, Z. Wu, W. Yang, C. Hu, X. Lin, Y. Jin, M. Dai, B. Cui, D. Yue, G. Xia*, Numerical simulations on the narrow-linewidth photonic microwave generation based on a QD laser simultaneously subject to optical injection and optical feedback, Appl. Opt., 2020, 59(9): 2935-2941

63. Q. Zeng, Z. Wu*, D. Yue, X. Tan, J. Tao, G. Xia*, Performance optimization of a reservoir computing system based on a solitary semiconductor laser under electrical-information injection, Appl. Opt., 2020, 59(23): 6932-6938

64. J. Wu, Z. Wu, G. Xia*. Frequency locking in a semiconductor laser with double incoherent optical feedback. Phys. Lett. A, 2009, 374(2): 173-177

65. D. Wang, J. Chen, G. Xia*, Z. Wu*, State bistability between pure- and mixed-mode steady states in a 1550-nm VCSEL subject to parallel optical injection. Jap. J. Appl. Phys., 2017, 56(7): 070314

66. W. Yang, Z. Wu, G. Xia*. Influence of the bias current on the output characteristics of a mode-locked fiber ring laser consisting of two SOAs. Opt. Commun., 2005, 250(4-6): 384-388

67. Q. Yang, Z. Wu, J. Wu, G. Xia*. Influence of injection patterns on chaos synchronization performance between a multimode laser diode and a single-mode laser. Opt. Commun., 2008, 281(19): 5025-5030

68. Y. Xiao, T. Deng, Z. Wu, J. Wu, X. Lin, X. Tang, L. Zeng, G. Xia*. Chaos synchronization between arbitrary two response VCSELs in a broadband chaos network driven by a bandwidth-enhanced chaotic signal. Opt. Commun., 2012, 285(6): 1442-1448

69. P. Xiao, Z. Wu, J. Wu, L. Jiang, T. Deng, X. Tang, L. Fan, G. Xia*. Time-delay signature concealment of chaotic output in a vertical-cavity surface-emitting laser with double variable-polarization optical feedback. Opt. Commun., 2013, 286: 339-343

70. L. Wang, Z. Wu*, J. Wu, G. Xia*. Long-Haul Dual-Channel Bidirectional Chaos Communication Based on Polarization-Resolved Chaos Synchronization between Twin 1550 nm VCSELs Subject to Variable-Polarization Optical Injection. Opt. Commun., 2015, 334: 214-221

71. X. Yang, J. Wu, Z. Wu*, Y. Li, L. Wang, G. Xia*. Time-delay signatures hidden in the phase of chaotic output of mutually delay-coupled vertical-cavity surface-emitting lasers. Opt. Commun., 2015, 336: 262-268

72. J. Song, Z. Zhong, L. Wei, Z. Wu*, G. Xia*. Experimental investigations on nonlinear dynamics of a semiconductor laser subject to optical injection and fiber Bragg grating feedback. Opt. Commun., 2015, 354: 213-217

73. X. Yin, Z. Zhong, L. Zhao, D. Lu, H. Qiu, G. Xia*, Z. Wu*. Wide bandwidth chaotic signal generation in a monolithically integrated semiconductor laser via optical injection, Opt. Commun., 2015, 355: 551-557

74. Y. Hou, G. Xia*, E. Jayaprasath, D. Yue, W. Yang, Z. Wu*. Prediction and classification performances of reservoir computing system using mutually delay-coupled semiconductor lasers. Opt. Commun., 2019, 433: 215-220

75. H. kong, Z. Wu, J. Wu, X. Lin, Y. Xie, G. Xia*. Experimental observations on the nonlinear behaviors of DFB semiconductor lasers under external optical injection. Chaos, Solitons & Fractals, 2008, 36(1): 18-24

76. E. Jayaprasath, Z. Wu*, S. Sivaprakasam, G. Xia*. Observation of additional delayed-time in chaos synchronization of uni-directionally coupled VCSELs. Chaos, 2018, 28(12): 123103

77. E. Jayaprasath, Z. Wu*, S. Sivaprakasam, Y. Hou, X. Tang, X. Lin, T. Deng, G. Xia*. Investigation of the effect of intra-cavity propagation delay in secure optical communication using chaotic semiconductor lasers. Photonics, 2019, 6(2): Art. No. 49

78. Z. Jiang, Z. Wu*, E. Jayaprasath, W. Yang, C. Hu, G. Xia*, Nonlinear dynamics of exclusive excited-state emission quantum dot lasers under optical injection, Photonics, 2019, 6(2): Art. No. 58

79. H. Ren, L. Fan, N. Liu, Z. Wu, G. Xia*, Generation of broadband optical frequency comb based on a gain-switching 1550nm vertical-cavity surface-emitting laser under optical injection, Photonics, 2020, 7(4): Art. No. 95

80. X. Wang, Z. Wu, Z. Jiang, G. Xia*, Nonlinear Dynamics of Two-State Quantum Dot Lasers under Optical Feedback, Photonics, 2021, 8(8): Art. No. 300

81. Z. Jiang, Z. Wu*, W. Yang, C. Hu, Y. Jin, Z. Xiao, G. Xia*, Numerical investigation on photonic microwave generation by a sole excited-state emitting quantum dot laser with optical injection and optical feedback, Chin. Phys. B, 2021, 30(5): 050504

82. 任小丽, 吴正茂, 樊利, 夏光琼*. 双光注入分布反馈半导体激光器的非线性动力学态实验研究. 科学通报, 2014, 59(3): 259-266

83.陈于淋, 吴正茂, 唐曦, 林晓东, 魏月, 夏光琼*, 基于双光注入锁定1550nm垂直腔表面发射半导体激光器产生可调谐毫米波, 物理学报, 2013, 62(10): 104207

84. 王顺天, 吴正茂, 吴加贵, 周立, 夏光琼*, 基于半导体环形激光器的高速双向双信道混沌保密通信. 物理学报, 2015, 64(15): 154205

85. 杨继云, 吴正茂, 梁卿, 陈建军, 钟祝强, 夏光琼*, 1550 nm垂直腔面发射激光器自旋反转模型中关键参量数值的实验确定. 物理学报, 2016, 65(12): 124203

86. 陈熙, 赵玲娟, 陈建军, 王会苹, 吴正茂, 陆丹, 夏光琼*, 单片集成放大反馈激光器的脉冲包络动力学实验研究, 物理学报, 2016, 65(21): 214209

87. 潘兴茂, 吴正茂, 唐曦, 夏光琼*, 基于互耦半导体激光器的混沌网状网络的同步与通信. 中国激光, 2013, 40(12): 1202005

88.李琼, 邓涛, 吴正茂*, 徐攀, 夏光琼*. 安全性增强的双向长距离混沌保密通信, 中国激光, 2018, 45(1): 0106001

89. 李桂英, 杨文艳, 吴正茂, 夏光琼*, 基于光注入下电流调制1550 nm垂直腔面发射激光器获取宽带光学频率梳, 光子学报, 2019, 48(12): 1214003

90. 唐睿, 高子叶, 吴正茂, 夏光琼*. 基于SESAM被动调Q的激光二极管泵浦Yb:C_aYAlO₄脉冲激光器. 中国光学, 2019, 12(1): 167-178