Professor

Phone: (86) 27-87558728

Email:  xlzhang@hust.edu.cn

Academic Areas: Optical Signal Processing Technologies for Next Generation Optical Network and High Performance Computing; Optical Instrumentation and Microwave Optical Systems

Prof. Zhang Xinliang received the B.S. degree and the Ph.D. degree from Huazhong University of Science and Technology (HUST), China, in 1992 and 2001. He became a full professor of School of Optical and Electronic Information, HUST in 2004, and now he is also a full professor of Wuhan National Laboratory for Optoelectronics(WNLO). Currently, He is the Dean of School of Optical and Electronic Information, the director of the division of Optoelectronic Devices & Integration (OEDI) in WNLO and the head of research group “Photonic Interconnection and Information Processing:Devices and Subsystems”. His research areas cover semiconductor optoelectronic devices for optical interconnection and optical signal processing, such as InP-based devices and integration and Si-based photonic devices and integration. He has over 200 publications in prestigious international journals and conferences, including over 100 IEEE Letters / Journals, Optics Letters or Optics Express papers and 20 OFC/ECOC papers. He holds 8 Chinese patents and 1 US patent with 3 Chinese patents pending. He is a member of IEEE and also a member of OSA.

Academic Degrees

PhD in Physics Electronics, 2001, HUST.

Bachelor, Optical Instrumentation,1992, HUST.

Professional Experience

2012---Current     Dean of School of Optical and Electronic Information, HUST

2011---Current     Director of Division of Optoelectronic Devices and Integration in WNLO, HUST

2004.11---Current  Full Professor of HUST

2007---2011       Assistant Director of WNLO

2001.8---2004.11   Associate Professor of HUST

Selected Publications

  1. Chen, Kaisheng, Jie Hou, Zhuyang Huang, Tong Cao, Jihua Zhang, Yuan Yu and Xinliang Zhang (2015). "All-optical 1st-and 2nd-order differential equation solvers with large tuning ranges using Fabry-Perot semiconductor optical amplifiers." Optics Express 23(3): 3784-3794.
  2. Wang, Zheqi, Lei Shi, Yi Liu, Xinbiao Xu and Xinliang Zhang (2015). "Optical Nonreciprocity in Asymmetric Optomechanical Couplers." Scientific Reports 5.
  3. Wang, Zheqi, Lei Shi, Xinbiao Xu, Jihua Zhang, Jiali Zhang and Xinliang Zhang (2015). "Optical nonreciprocity with large bandwidth in asymmetric hybrid slot waveguide coupler." Optics Express 23(3): 3690-3698.
  4. Yang, Weili, Yu Yu, Mengyuan Ye, Guanyu Chen, Chi Zhang and Xinliang Zhang (2015). "Phase regeneration for polarization-division multiplexed signals based on vector dual-pump nondegenerate phase sensitive amplification." Optics Express 23(3): 2010-2020.
  5. Cao, Tong, Liao Chen, Yu Yu and Xinliang Zhang (2014). "Experimental demonstration and devices optimization of NRZ-DPSK amplitude regeneration scheme based on SOAs." Optics Express 22(26): 32138-32149.
  6. Chen, Kaisheng, Zhuyang Huang, Gaoneng Dong and Xinliang Zhang (2014). "Design of an ultra-short coupler in an asymmetric twin-waveguide structure using transformation optics." Applied Optics 53(33): 7831-7837.
  7. Liao, Shasha, Yunhong Ding, Christophe Peucheret, Ting Yang, Jianji Dong and Xinliang Zhang (2014). "Integrated programmable photonic filter on the silicon-on-insulator platform." Optics Express 22(26): 31993-31998.
  8. Lei, L., J. J. Dong, B. R. Zou, Z. Wu, W. C. Dong and X. L. Zhang (2014). "Expanded all-optical programmable logic array based on multi-input/output canonical logic units." Optics Express 22(8): 9959-9969.
  9. Liu, Y., L. Shi, X. B. Xu, P. Zhao, Z. Q. Wang, S. L. Pu and X. L. Zhang (2014). "All-optical tuning of a magnetic-fluid-filled optofluidic ring resonator." Lab on a Chip 14(16): 3004-3010.
  10. Min, S. C., S. S. Liao, C. L. Zou, X. L. Zhang and J. J. Dong (2014). "Route-asymmetrical optical transmission and logic gate based on optical gradient force." Optics Express 22(21): 25947-25952.
  11. Wu, Z., J. J. Dong, J. Hou, S. Q. Yan, Y. Yu and X. L. Zhang (2014). "Temporal imaging using a time pinhole." Optics Express 22(7): 8076-8084.
  12. Wu, Z., L. Lei, J. J. Dong and X. L. Zhang (2014). "Triangular-shaped pulse generation based on self-convolution of a rectangular-shaped pulse." Optics Letters 39(8): 2258-2261.
  13. Wu, Z., L. Lei, J. J. Dong, J. Hou and X. L. Zhang (2014). "Reconfigurable Temporal Fourier Transformation and Temporal Imaging." Journal of Lightwave Technology 32(23): 3963-3968.
  14. Xiang, L., D. S. Gao, Y. Yu, M. Y. Ye, B. R. Zou and X. L. Zhang (2014). "Silicon-Based Integrated Comb Filter and Demultiplexer for Simultaneous WDM Signal Processing." IEEE Journal of Selected Topics in Quantum Electronics 20(4).
  15. Xu, Y. M., C. Caer, D. S. Gao, E. Cassan and X. L. Zhang (2014). "High efficiency asymmetric directional coupler for slow light slot photonic crystal waveguides." Optics Express 22(9): 11021-11028.
  16. Yang, T., J. J. Dong, L. J. Lu, L. J. Zhou, A. L. Zheng, X. L. Zhang and J. P. Chen (2014). "All-optical differential equation solver with constant-coefficient tunable based on a single microring resonator." Scientific Reports 4.
  17. Yang, W. L., Y. Yu, M. Y. Ye, J. H. Zou, G. Y. Chen and X. L. Zhang (2014). "Wide Locking Range and Multi-Channel Clock Recovery Using a Silicon Microring Resonator." IEEE Photonics Technology Letters 26(3): 293-296.
  18. Zhang, J. H., E. Cassan and X. L. Zhang (2014). "Electrically controlled second-harmonic generation in silicon-compatible plasmonic slot waveguides: a new modulation scheme." Optics Letters 39(13): 4001-4004.
  19. Zhang, J. H., E. Cassan and X. L. Zhang (2014). "Wideband and Compact TE-Pass/TM-Stop Polarizer Based on a Hybrid Plasmonic Bragg Grating for Silicon Photonics." Journal of Lightwave Technology 32(7).
  20. Zhang, J. H., L. Shi, Y. L. Wang, E. Cassan and X. L. Zhang (2014). "On-chip high-speed optical detection based on an optical rectification scheme in silicon plasmonic platform." Optics Express 22(22): 27504-27514.
  21. Zhao, P., L. Shi, Y. Liu, Z. Q. Wang, S. L. Pu and X. L. Zhang (2014). "Iron-oxide nanoparticles embedded silica microsphere resonator exhibiting broadband all-optical wavelength tunability." Optics Letters 39(13): 3845-3848.
  22. Zheng, A. L., J. J. Dong, L. Lei, T. Yang and X. L. Zhang (2014). "Diversity of photonic differentiators based on flexible demodulation of phase signals." Chinese Physics B 23(3).
  23. Zhou, H. L., J. J. Dong, S. Q. Yan, Y. F. Zhou, L. Shi and X. L. Zhang (2014). "Manipulation of orbital angular momentum beams based on space diffraction compensation." Optics Express 22(15): 17756-17761.
  24. Zhou, H. L., J. J. Dong, L. Shi, D. X. Huang and X. L. Zhang (2014). "Hybrid coding method of multiple orbital angular momentum states based on the inherent orthogonality." Optics Letters 39(4): 731-734.
  25. Zhou, H. L., S. Q. Yan, J. J. Dong and X. L. Zhang (2014). "Double metal subwavelength slit arrays interference to measure the orbital angular momentum and the polarization of light." Optics Letters 39(11): 3173-3176.
  26. Zou, Jinghui, Yu Yu, Mengyuan Ye, Lei Liu, Shupeng Deng, Xiaogeng Xu and Xinliang Zhang (2014). "Short and efficient mode-size converter designed by segmented-stepwise method." Optics Letters 39(21): 6273-6276.
  27. Zou, J. H., Y. Yu, W. L. Yang, Z. Wu, M. Y. Ye, G. Y. Chen, L. Liu, S. P. Deng and X. L. Zhang (2014). "An SOI based polarization insensitive filter for all-optical clock recovery." Optics Express 22(6): 6647-6660.
  28. Yang, T., J. J. Dong, L. Liu, S. S. Liao, S. S. Tan, L. Shi, D. S. Gao and X. L. Zhang (2014). "Experimental observation of optical differentiation and optical Hilbert transformation using a single SOI microdisk chip." Scientific Reports 4: 6.
  29. Ye, M. Y., Y. Yu, J. H. Zou, W. L. Yang and X. L. Zhang (2014). "On-chip multiplexing conversion between wavelength division multiplexing-polarization division multiplexing and wavelength division multiplexing-mode division multiplexing." Optics Letters 39(4): 758-761.
  30. Yu, Y., J. J. Dong, F. Jiang and X. L. Zhang (2013). "Photonic Generation of Precisely pi Phase-Coded Microwave Signal With Broadband Tunability." IEEE Photonics Technology Letters 25(24): 2466-2469.
  31. Dong, J. J., A. L. Zheng, D. S. Gao, L. Lei, D. X. Huang and X. L. Zhang (2013). "Compact, flexible and versatile photonic differentiator using silicon Mach-Zehnder interferometers." Optics Express 21(6): 7014-7024.
  32. Dong, J. J., L. Liu, D. S. Gao, Y. Yu, A. L. Zheng, T. Yang and X. L. Zhang (2013). "Compact Notch Microwave Photonic Filters Using On-Chip Integrated Microring Resonators." IEEE Photonics Journal 5(2): 7.
  33. Dong, J. J., A. L. Zheng, D. S. Gao, S. S. Liao, L. Lei, D. X. Huang and X. L. Zhang (2013). "High-order photonic differentiator employing on-chip cascaded microring resonators." Optics Letters 38(5): 628-630.
  34. Jiang, F., J. H. Wong, H. Q. Lam, J. Q. Zhou, S. Aditya, P. H. Lim, K. E. K. Lee, P. P. Shum and X. L. Zhang (2013). "An optically tunable wideband optoelectronic oscillator based on a bandpass microwave photonic filter." Optics Express 21(14): 16381-16389.
  35. Qin, Y. G., Y. Yu, J. H. Zou, M. Y. Ye, L. Xiang and X. L. Zhang (2013). "Silicon based polarization insensitive filter for WDM-PDM signal processing." Optics Express 21(22): 25727-25733.
  36. Tan, S. S., Z. Wu, L. Lei, S. J. Hu, J. J. Dong and X. L. Zhang (2013). "All-optical computation system for solving differential equations based on optical intensity differentiator." Optics Express 21(6): 7008-7013.
  37. Tan, S. S., L. Xiang, J. H. Zou, Q. Zhang, Z. Wu, Y. Yu, J. J. Dong and X. L. Zhang (2013). "High-order all-optical differential equation solver based on microring resonators." Optics Letters 38(19): 3735-3738.
  38. Wu, W. H., Y. Yu, B. R. Zou, W. L. Yang and X. L. Zhang (2013). "Single SOA based simultaneous amplitude regeneration for WDM-PDM RZ-PSK signals." Optics Express 21(6): 6718-6723.
  39. Xiang, L., Y. Yu, Y. G. Qin, J. H. Zou, B. R. Zou and X. L. Zhang (2013). "SOI based ultracompact polarization insensitive filter for PDM signal processing." Optics Letters 38(14): 2379-2381.
  40. Xiong, M., L. Lei, Y. H. Ding, B. Huang, H. Y. Ou, C. Peucheret and X. L. Zhang (2013). "All-optical 10 Gb/s AND logic gate in a silicon microring resonator." Optics Express 21(22): 25772-25779.
  41. Xu, Y. M., L. Xiang, E. Cassan, D. S. Gao and X. L. Zhang (2013). "Slow light in an alternative row of ellipse-hole photonic crystal waveguide." Applied Optics 52(6): 1155-1160.
  42. Yang, T., J. J. Dong, S. S. Liao, D. X. Huang and X. L. Zhang (2013). "Comparison analysis of optical frequency comb generation with nonlinear effects in highly nonlinear fibers." Optics Express 21(7): 8508-8520.
  43. Zhang, J. H., E. Cassan, D. S. Gao and X. L. Zhang (2013). "Highly efficient phase-matched second harmonic generation using an asymmetric plasmonic slot waveguide configuration in hybrid polymer-silicon photonics." Optics Express 21(12): 14876-14887.
  44. Zhang, J. H., E. Cassan and X. L. Zhang (2013). "Efficient second harmonic generation from mid-infrared to near-infrared regions in silicon-organic hybrid plasmonic waveguides with small fabrication-error sensitivity and a large bandwidth." Optics Letters 38(12): 2089-2091.
  45. Zhang, J. H., P. Zhao, E. Cassan and X. L. Zhang (2013). "Phase regeneration of phase-shift keying signals in highly nonlinear hybrid plasmonic waveguides." Optics Letters 38(6): 848-850.
  46. Zhang, Q., C. Qin, K. S. Chen, M. Xiong and X. L. Zhang (2013). "Novel Optical Multibistability and Multistability Characteristics of Coupled Active Microrings." IEEE Journal of Quantum Electronics 49(3): 365-374.
  47. Zhao, P., L. Shi, Y. Liu, Z. Q. Wang and X. L. Zhang (2013). "Compact in-line optical notch filter based on an asymmetric microfiber coupler." Applied Optics 52(36): 8834-8839.
  48. Zhao, P., J. H. Zhang, Y. Yu, J. J. Dong, L. Shi, Y. Liu and X. L. Zhang (2013). "In-line polarization-dependent microfiber interferometers and their applications in UWB signal generation." Optics Express 21(7): 8231-8239.
  49. Bao, C. J., J. Hou, H. M. Wu, E. Cassan, L. Chen, D. S. Gao and X. L. Zhang (2012). "Flat Band Slow Light With High Coupling Efficiency in One-Dimensional Grating Waveguides." IEEE Photonics Technology Letters 24(1): 7-9.
  50. Hong, W., M. H. Li, X. L. Zhang, J. Q. Sun and D. X. Huang (2012). "Noise Suppression Mechanisms in Regenerators Based on XGC in an SOA With Subsequent Optical Filtering." IEEE Journal of Selected Topics in Quantum Electronics 18(2): 935-949.
  51. Huang, X., C. Qin, Y. Yu and X. L. Zhang (2012). "Acceleration of carrier recovery in a quantum well semiconductor optical amplifier due to the tunneling effect." Journal of the Optical Society of America B-Optical Physics 29(10): 2990-2994.
  52. Lei, L., J. J. Dong, Y. Yu, S. S. Tan and X. L. Zhang (2012). "All-Optical Canonical Logic Units-Based Programmable Logic Array (CLUs-PLA) Using Semiconductor Optical Amplifiers." Journal of Lightwave Technology 30(22): 3532-3539.
  53. Luo, B. W., J. J. Dong, Y. Yu, T. Yang and X. L. Zhang (2012). "Photonic generation of ultra-wideband doublet pulse using a semiconductor-optical-amplifier based polarization-diversified loop." Optics Letters 37(12): 2217-2219.
  54. Luo, B. W., J. J. Dong, Y. Yu and X. L. Zhang (2012). "Bandwidth-Tunable Single-Carrier UWB Monocycle Generation Using a Nonlinear Optical Loop Mirror." IEEE Photonics Technology Letters 24(18): 1646-1649.
  55. Luo, B. W., T. Yang, J. J. Dong, Y. Yu, D. X. Huang and X. L. Zhang (2012). "All-Optical Millimeter-Wave Ultrawideband Signal Generation Using a Nonlinear Optical Loop Mirror." IEEE Photonics Journal 4(2): 350-356.
  56. Qin, C., X. Huang and X. L. Zhang (2012). "Theoretical investigation on gain recovery dynamics in step quantum well semiconductor optical amplifiers." Journal of the Optical Society of America B-Optical Physics 29(4): 607-613.
  57. Wang, F., Y. Yu, Y. Zhang and X. L. Zhang (2012). "All-Optical Clock Recovery Using a Single Fabry-Perot Semiconductor Optical Amplifier." Journal of Lightwave Technology 30(11): 1632-1637.
  58. Wu, W. H., Y. Yu, S. J. Hu, B. R. Zou and X. L. Zhang (2012). "All-Optical Format Conversion for Polarization and Wavelength Division Multiplexed System." IEEE Photonics Technology Letters 24(18): 1606-1609.
  59. Wu, Z., Y. Yu and X. L. Zhang (2012). "Chromatic Dispersion Monitoring for NRZ-DPSK System Using Asynchronous Amplitude Histogram Evaluation." IEEE Photonics Journal 4(4): 1212-1219.
  60. Xiang, L., Y. M. Xu, Y. Yu and X. L. Zhang (2012). "An Ultracompact DP-QPSK Demodulator Based on Multimode Interference and Photonic Crystals." Journal of Lightwave Technology 30(11): 1595-1601.
  61. Xiong, M., O. Ozolins, Y. H. Ding, B. Huang, Y. An, H. Y. Ou, C. Peucheret and X. L. Zhang (2012). "Simultaneous RZ-OOK to NRZ-OOK and RZ-DPSK to NRZ-DPSK format conversion in a silicon microring resonator." Optics Express 20(25): 27263-27272.
  62. Yu, Y., J. J. Dong, X. Li and X. L. Zhang (2012). "UWB Monocycle Generation and Bi-Phase Modulation Based on Mach-Zehnder Modulator and Semiconductor Optical Amplifier." IEEE Photonics Journal 4(2): 327-339.
  63. Yu, Y., W. H. Wu, X. Huang, B. R. Zou, S. J. Hu and X. L. Zhang (2012). "Multichannel All-Optical RZ-PSK Amplitude Regeneration Based on the XPM Effect in a Single SOA." Journal of Lightwave Technology 30(23): 3633-3639.
  64. Zhang, Y., J. J. Dong, L. Lei, H. He, Y. Yu and X. L. Zhang (2012). "Reconfigurable Four-Input Photonic Logic Minterms and Maxterms Generation Using SOAs." IEEE Photonics Technology Letters 24(12): 985-987.
  65. Zhao, P., Y. H. Li, J. H. Zhang, L. Shi and X. L. Zhang (2012). "Nanohole induced microfiber Bragg gratings." Optics Express 20(27): 28625-28630.
  66. Zou, B. R., Y. Yu, W. H. Wu and X. L. Zhang (2012). "Parallel Eight Channels All-Optical NRZ-to-RZ Format Conversions at 40 Gb/s Using a Single SOA." IEEE Photonics Technology Letters 24(13): 1091-1093.
  67. Bao, C. J., J. Hou, H. M. Wu, X. Zhou, E. Cassan, D. S. Gao and X. L. Zhang (2011). "Low Dispersion Slow Light in Slot Waveguide Grating." IEEE Photonics Technology Letters 23(22): 1700-1702.
  68. Chen, X. B., Y. Yu and X. L. Zhang (2011). "All-Optical Logic Minterms for Three-Input Demodulated Differential Phase-Shift Keying Signals at 40 Gb/s." IEEE Photonics Technology Letters 23(2): 118-120.
  69. Ding, Y. H., L. Liu, C. Peucheret, J. Xu, H. Y. Ou, K. Yvind, X. L. Zhang and D. X. Huang (2011). "Towards Polarization Diversity on the SOI Platform With Simple Fabrication Process." IEEE Photonics Technology Letters 23(23): 1808-1810.
  70. Ding, Y. H., J. Xu, C. Peucheret, M. H. Pu, L. Liu, J. Seoane, H. Y. Ou, X. L. Zhang and D. X. Huang (2011). "Multi-Channel 40 Gbit/s NRZ-DPSK Demodulation Using a Single Silicon Microring Resonator." Journal of Lightwave Technology 29(5): 677-684.
  71. Dong, J. J., Y. Yu, Y. Zhang, X. Li, D. X. Huang and X. L. Zhang (2011). "All-optical binary phase-coded UWB signal generation for multi-user UWB communications." Optics Express 19(11): 10587-10594.
  72. Dong, J. J., Y. Yu, Y. Zhang, B. W. Luo, T. Yang and X. L. Zhang (2011). "Arbitrary-Order Bandwidth-Tunable Temporal Differentiator Using a Programmable Optical Pulse Shaper." IEEE Photonics Journal 3(6): 996-1003.
  73. Huang, Q. Z., X. L. Zhang, J. S. Xia and J. Z. Yu (2011). "Dual-band optical filter based on a single microdisk resonator." Optics Letters 36(23): 4494-4496.
  74. Huang, X., Z. Zhang, C. Qin, Y. Yu and X. L. Zhang (2011). "Optimized Quantum-Well Semiconductor Optical Amplifier for RZ-DPSK Signal Regeneration." IEEE Journal of Quantum Electronics 47(6): 819-826.
  75. Lei, L., Y. Zhang, J. J. Dong, Y. Yu and X. L. Zhang (2011). "40-Gb/s 16-ary All-Optical Logic Minterms Generation for Four-Line Inputs." IEEE Photonics Technology Letters 23(18): 1322-1324.
  76. Li, X. A., J. J. Dong, Y. A. Yu and X. L. Zhang (2011). "A Tunable Microwave Photonic Filter Based on an All-Optical Differentiator." IEEE Photonics Technology Letters 23(5): 308-310.
  77. Qin, C., X. Huang and X. L. Zhang (2011). "Gain Recovery Acceleration by Enhancing Differential Gain in Quantum Well Semiconductor Optical Amplifiers." IEEE Journal of Quantum Electronics 47(11): 1443-1450.
  78. Xiong, M., Y. H. Ding, Q. Zhang and X. L. Zhang (2011). "All-optical clock recovery from 40 Gbit/s RZ signal based on microring resonators." Applied Optics 50(28): 5390-5396.
  79. Yu, Y., J. J. Dong, X. Li and X. L. Zhang (2011). "Ultra-Wideband Generation Based on Cascaded Mach-Zehnder Modulators." IEEE Photonics Technology Letters 23(23): 1754-1756.
  80. Yu, Y., J. J. Dong, E. M. Xu, X. Li, L. Zhou, F. Wang and X. L. Zhang (2011). "Single Passband Microwave Photonic Filter With Continuous Wideband Tunability Based on Electro-Optic Phase Modulator and Fabry-Perot Semiconductor Optical Amplifier." Journal of Lightwave Technology 29(23): 3542-3550.
  81. Yu, Y., B. R. Zou, W. H. Wu and X. L. Zhang (2011). "All-optical parallel NRZ-DPSK to RZ-DPSK format conversion at 40 Gb/s based on XPM effect in a single SOA." Optics Express 19(15): 14720-14725.
  82. Zhang, Z., Y. Yu and X. L. Zhang (2011). "Simultaneous all-optical demodulation and format conversion for multi-channel (CS)RZ-DPSK signals." Optics Express 19(13): 12427-12433.
  83. Ding, Y. H., C. Peucheret, M. H. Pu, B. Zsigri, J. Seoane, L. Liu, J. Xu, H. Y. Ou, X. L. Zhang and D. X. Huang (2010). "Multi-channel WDM RZ-to-NRZ format conversion at 50 Gbit/s based on single silicon microring resonator." Optics Express 18(20): 21121-21130.
  84. Gao, D. S., J. Hou, R. Hao, H. M. Wu, J. T. Guo, E. Cassan and X. L. Zhang (2010). "Wideband Slow Light in One-Dimensional Chirped Holey Grating Waveguide." IEEE Photonics Technology Letters 22(15): 1135-1137.
  85. Hao, R., E. Cassan, H. Kurt, J. Hou, X. Le Roux, D. Marris-Morini, L. Vivien, D. S. Gao, 3. Z. P. Zhou and X. L. Zhang (2010). "Novel Kind of Semislow Light Photonic Crystal Waveguides With Large Delay-Bandwidth Product." IEEE Photonics Technology Letters 22(11): 844-846.
  86. Hao, R., E. Cassan, H. Kurt, X. Le Roux, D. Marris-Morini, L. Vivien, H. M. Wu, Z. P. Zhou and X. L. Zhang (2010). "Novel slow light waveguide with controllable delay-bandwidth product and utra-low dispersion." Optics Express 18(6): 5942-5950.
  87. Hao, R., E. Cassan, X. Le Roux, D. S. Gao, V. Do Khanh, L. Vivien, D. Marris-Morini and X. L. Zhang (2010). "Improvement of delay-bandwidth product in photonic crystal slow-light waveguides." Optics Express 18(16): 16309-16319.
  88. Huang, X., C. Qin, D. X. Huang and X. L. Zhang (2010). "Local Carrier Recovery Acceleration in Quantum Well Semiconductor Optical Amplifiers." IEEE Journal of Quantum Electronics 46(10): 1407-1413.
  89. Wang, F., J. J. Dong, E. M. Xu and X. L. Zhang (2010). "All-optical UWB generation and modulation using SOA-XPM effect and DWDM-based multi-channel frequency discrimination." Optics Express 18(24): 24588-24594.
  90. Xu, E. M., X. L. Zhang, L. N. Zhou, Y. Zhang, Y. Yu, X. Li and D. X. Huang (2010). "All-Optical Microwave Filter With High Frequency Selectivity Based on Semiconductor Optical Amplifier and Optical Filter." Journal of Lightwave Technology 28(16): 2358-2365.
  91. Xu, E. M., X. L. Zhang, L. N. Zhou, Y. Zhang, Y. Yu, X. Li and D. X. Huang (2010). "Ultrahigh-Q microwave photonic filter with Vernier effect and wavelength conversion in a cascaded pair of active loops." Optics Letters 35(8): 1242-1244.
  92. Xu, J., X. L. Zhang and J. Mork (2010). "Investigation of Patterning Effects in Ultrafast SOA-Based Optical Switches." IEEE Journal of Quantum Electronics 46(1): 87-94.
  93. Yu, Y. A., E. M. Xu, J. J. Dong, L. N. Zhou, X. A. Li and X. L. Zhang (2010). "Switchable microwave photonic filter between high Q bandpass filter and notch filter with flat passband based on phase modulation." Optics Express 18(24): 25271-25282.
  94. Zhang, Y., B. Lin, S. C. Tjin, H. Zhang, G. H. Wang, P. Shum and X. L. Zhang (2010). "Refractive index sensing based on higher-order mode reflection of a microfiber Bragg grating." Optics Express 18(25): 26345-26350.

Awards and Honors

  1. The first-class award of natural science in Hubei Province in 2013
  2. Sponsored by National Science Fund for Distinguished Young Scholars of NSFC in 2011
  3. The first-class award of natural science in Hubei Province in 2009
  4. Awarded as Lecturer of National Distinguished Courses of China in 2009
  5. Sponsored by foundation of Outstanding Young Scholars in Hubei Province in 2005
  6. Awarded as New Century Talents by Ministry of Education of China in 2004

Courses Taught

  1. Fiber-optic Communication Systems, major course for undergraduates
  2. Advanced Optical Fiber Communication Technologies, major course for graduates
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