学术成果

1.Bai, Bowen; Shu, Haowen; Wang, Xingjun; Zou, Weiwen; Towards silicon photonic neural networks for artificial intelligence. SCIENCE CHINA Information Sciences, 2020, 63: 160403.

2.Shen, Bitao; Shu, Haowen; Zhou, Linjie; Wang, Xingjun; A design method for high fabrication tolerance integrated optical mode multiplexer. SCIENCE CHINA Information Sciences, 2020, 63: 160409.

3.Yang, Fenghe; Sun, Pengfei; Chen, Ruixuan; Zhou, Zhiping; A controllable coupling structure for silicon microring resonators based on adiabatic elimination. Chinese Optics Letters, 2020, 18(1): 0130601.

4.Shu, Haowen; Deng, Qingzhong；Jin, Ming; Tao, Yuansheng; Wang, Xingjun; Zhou, Zhiping; A Polarization Multiplexing Optical Circuit for Efficient Phase Tuning. IEEE Photonics Technology Letters, 2019, 31(19): 1549-1552.

5.Zhang, Zhike; Li, Jinye; Zhao, Zeping; Liu, Jianguo; Wang, Xingjun; Package-level passive equalization technology enabling DML-based 112 Gbps/λ PAM4 transmission. Chinese Optics Letters, 2019, 17(12): 120604.

6.Shu, Haowen; Shen, Bitao; Deng, Qingzhong; Jin, Ming； Wang, Xingjun; Zhou, Zhiping; A Design Guideline for Mode (DE) Multiplexer Based on Integrated Tapered Asymmetric Directional Coupler. IEEE Photonics Journal, 2019, 11(5): 1111.  

7.Yang, Fenghe; Deng, Qingzhong; Sun, Pengfei; Bai, Bowen; Zhou, Zhiping; Demonstration of a robust insertion loss measuring approach for low-loss silicon photonic devices. Optics Express, 2019, 27(14):19827-19833.

8.Tu, Zhijuan; Gong, Pan; Zhou, Zhiping; Wang, Xingjun; Ultracompact 100 Gbps coherent receiver monolithically integrated on silicon. Japanese Journal of Applied Physics, 2016, 55(4): 0-04EC04.

9.Li, Ming; Chen, Xiangfei; Su, Yikai; Chen, Minghua; Wang, Xingjun; Dai, Daoxin; Liu, Jianguo; Zhu, Ning Hua; Photonic Integration Circuits in China. Journal of Quantum Electronics, 2016, 52(1): 0-0601017.  

10.Zhiping Zhou; Zhijuan Tu; Tiantian Li; Xingjun Wang; Silicon Photonics for Advanced Optical Interconnections. Journal of Lightwave Technology. 2015,33 (4): 928-933.

11.Yin, Mei; Deng, Qingzhong; Li, Yanping; Li, Hongbin Wang, Xingjun; Ultrashort and Low-Loss Polarization Rotators Utilizing Hybrid Plasmonic-Dielectric Couplers. Photonics Technology Letters, 2015, 27(3) :229-232.

12.Yu, Li; Liu, Lu; Zhou, Zhiping; Wang, Xingjun; High efficiency binary blazed grating coupler for perfectly-vertical and near-vertical coupling in chip level optical interconnections. Optics Communications, 2015, 355:161-166.

13.Yi, Huaxiang; Li, Tiantian; Zhang, Junlong; Zhou, Zhiping; Wang Xingjun; Temperature-independent broadband silicon modulator. Optics Communications, 2015, 340: 107-109.  

14.Yin, Mei; Yang, Wei; Li, Yanping; Li, Hongbin; Wang Xingjun; CMOS-compatible and fabrication-tolerant MMI-based polarization beam splitter. Optics Communications, 2015, 335: 48-52.

15.Deng, Qingzhong; Yi, Huaxiang; Long, Qifeng; Wang, Xingjun; Zhou, Zhiping; Low loss silicon microring resonator as comb filter. Optics Communications, 2015, 355: 285-289.

16.王兴军; 苏昭棠; 周治平; 硅基光电子学的最新进展. 中国科学:物理学,力学,天文学, 2015 (01) : 15-45.

17.舒浩文; 苏昭棠; 王兴军； 周治平; 面向中红外应用的硅基光电子学最近研究进展. 电信科学(特邀论文) , 2015 (10): 29-42.

18.Li, Tiantian; Wang, Dan; Zhang, Junlong; Zhou, Zhiping; Zhang, Fan; Wang, Xingjun; Wu, Hequan; Demonstration of 6.25 Gbaud advanced modulation formats with subcarrier multiplexed technique on silicon Mach-Zehnder modulator. Optics Express, 2014, 22(16): 19818-19826.  

19.Tu, Zhijuan; Zhou, Zhiping; Wang, Xingjun; Investigation of Random Telegraph Noise in the Dark Current of Germanium Waveguide Photodetector. Journal of Selected Topics in Quantum Electronics ,2014 20(4).

20.Yin, Mei; Deng, Qingzhong; Li, Yanping; Li, Hongbin Wang, Xingjun; Compact and broadband mode multiplexer and demultiplexer based on asymmetric plasmonic-dielectric coupling. Applied Optics, 2014, 53(27): 6175-6180.

21.Tu, Zhijuan; Zhou, Zhiping; Wang, Xingjun; Reliability characterization of silicon-based germanium waveguide photodetectors. Optical Engineering, 2014, 53(5).

22.Yang, Wei; Yin, Mei; Li, Yanping; Wang, Ziyu; Wang, Xingjun; Ultra-compact optical 90 degrees hybrid based on a wedge-shaped 2 x 4 MMI coupler and a 2 x 2 MMI coupler in silicon-on-insulator. Optics Express, 2013, 21(23): 28423-28431.

23.Li, Tiantian; Zhang, Junlong; Yi, Huaxiang; Tan, Wei; Long, Qifeng；Zhou, Zhiping；Wu, Hequan; Wang, Xingjun; Low-voltage, high speed, compact silicon modulator for BPSK modulation. Optics Express, 2013, 21(20): 23410-23415.

24.Gao, Linfei; Hu, Feifei; Tang, Liangxiao; Wang, Xingjun; Zhou, Zhiping; Ultracompact and silicon-on-insulator-compatible polarization splitter based on asymmetric plasmonic-dielectric coupling. Applied Physics B: Lasers and Optics, 2013, 113(2): 199-203.

25.Huang, Yawen; Li, Yanping; Wang, Xingjun; High extinction ratio , olarization beam splitter with multimode interference coupler on SOI. Optics Communications, 2013, 307: 46-49.

26.Huang, Yawen; Tu, Zhao; Li, Yanping；Hu, Weiwei ;Wang, Xingjun; Polarization beam splitter based on cascaded step-size multimode interference coupler. Optical Engineering, 2013, 52(7): 077103-077109.

27.Zhou, Zhiping; Wang, Xingjun; Yi, Huaxiang; Tu, Zhijuan; Tan, Wei; Long, Qifeng; Yin, Mei; Huang, Yawen; Silicon photonics for advanced optical communication systems. Optical Engineering, 2013, 52(4): 045007-045010.

28.Zhou, Zhiping; Tu, Zhijuan; Yin, Bing; Tan, Wei; Yu, Li; Yi, Huaxiang; Wang, Xingjun; Development trends in silicon photonics Chinese. Optics Letters, 2013, 11(1): 012501-012504.

29.Yi, Huaxiang; Long, Qifeng；Zhou, Zhiping; Wang, Xingjun; Demonstration of low power penalty of silicon Mach-Zehnder modulator in long-haul transmission. Optics Express, 2012, 20(25): 27562-27568.

30.Yang, Junbo; Zhou, Zhiping; Wu, Danhua; Yi, Huaxiang; Wang, XingJun; Yang, JianKun; Zhou, Wei; Compact double-layer subwavelength binary blazed grating 1 x 4 splitter based on silicon-on-insulator. Optics Letters, 2011, 36(6): 837-839.

31.Zhou, Zhiping; Wu, Huaming; Feng, Junbo; Hou, Jin; Yi, Huaxiang; Wang, Xingjun; Silicon nanophotonic devices based on resonance enhancement. Journal of Nanophotonics, 2010, 4(1): 041001-041008.