硅基片上放大器与激光器-北京大学信息与通信研究所

研究方向

硅基片上放大器与激光器

方向简介

针对硅基光电集成发展所面临的瓶颈问题，解决高效硅基光源这一世界性难题，开展面向规模集成的高效硅基光波导放大器和激光器研究，包括硅基发光的基础理论与方法，高增益、低损耗的硅基稀土掺杂光波导放大器，高质量硅基III-V族外延和键合激光器。

期刊论文

1.P. Q. Zhou, X. J. Wang, Y. D. He, and W. W. Zou. “A high-power, high-efficiency hybrid silicon-based erbium silicate-silicon nitride waveguide laser”, Journal of Quantum Electronics, 56(2), 1100111 (2020).

2.P. Q. Zhou, X. J. Wang, and Y. D. He. “A sub-kHz narrow-linewidth, and hundred-mW high-output-power silicon-based Er silicate laser with hybrid pump and signal co-resonant cavity”, IEEE Photonics Journal, 12(1), 1500212 (2020).

3.P. Q. Zhou, X. J. Wang, Y. D. He, Z. F. Wu, J. L. Du, and E. G. Fu. “Effect of deposition mechanisms on the infrared photoluminescence of erbium-ytterbium silicate films under different sputtering methods”, Journal of Applied Physics, 125, 175114 (2019).

4.P. Q. Zhou, S. M. Wang, X. J. Wang, Y. D. He, Z. P. Zhou, L. J. Zhou, and K. Wu. “High-Gain Erbium Silicate Waveguide Amplifier and Low-Threshold, High-Efficiency Laser”. Optics Express, 26(13), 16689 (2018).

5.X. J. Wang, P. Q. Zhou, Y. D. He, and Z. P. Zhou. “Erbium silicate compound optical waveguide amplifier and laser”, Optics Material Express, 8(10),2970 (2018).

6.陈子萍; 舒浩文; 王兴军; 硅基集成光波导放大器的最新研究进展, 中国科学:物理学力学天文学, 2017, (12): 5-23

7.R. Ye, C. Xu, X. Wang, J. Cui and Z. Zhou, “Room-temperature near-infrared up-conversion lasing in single-crystal Er-Y chloride silicate nanowires”, Scientific Reports 6, 34407 (2016).

8.Wang, Xingjun; Wang, Shengming; Zhou, Zhiping; Low threshold ErxYb(Y)(2-x)SiO5 nanowire waveguide amplifier, Applied Optics, 2015, 54(9):2501-2506.

9.Wang XingJun; Jiang LingJun; Guo RuiMin; Ye Rui; Zhou ZhiPing; Spontaneous emission rate and optical amplification of Er3+ in double slot waveguide, Science China Physics, Mechanics & Astronomy, 2015, 58(12): 0-124201.

10.王兴军; 周治平; 硅基光电集成用铒硅酸盐化合物光源材料和器件的研究进展, 中国光学(特邀综述文章), 2014, 7(2): 18-22.

11.Wang, Bing; Guo, Ruimin; Wang, Xingjun; Wang, Lei; Yin, Bing; Zhou, Zhiping; Large electroluminescence excitation cross section and strong potential gain of erbium in ErYb silicate, Journal of Applied Physics, 2013, 113(10): 103108-103112.

12.Ruimin Guo, Bin Wang, Xingjun Wang and Zhiping Zhou, “Suppression of second-order cooperative up-conversion in Er/Yb silicate glass”, Optical Materials, 35, 935 (2013).

13.Ruimin Guo, Bing Wang, Xingjun Wang, Lei Wang, Lingjun Jiang, and Zhiping Zhou, “Optical amplification in Er/Yb silicate slot waveguide”, Optics Letters, 37(9), 1427 (2012).

14.Gao, Linfei; Tang, Liangxiao; Wang, Xingjun; Zhou, Zhiping; Active metal strip hybrid plasmonic waveguide with low critical material gain, Optics Express, 2012, 20(10): 11487-11495.

15.Bin Wang, Xingjun Wang, Rui Min Guo, Lei Wang, Lionel C Kimerling, and Zhiping Zhou, “Photoluminescence quantum efficiency and energy transfer of ErRE silicate (RE=Y, Yb) thin films”, Journal of Physics D: Applied Physics, 45(16), 165101 (2012).

16.Lei Wang, Ruimin Guo, Bing Wang, Xingjun Wang, and Zhiping Zhou, “Hybrid Si3N4-Er/Yb Silicate Waveguides for Amplifier Application”, IEEE Photonics Technology Letters, 24(11), 900 (2012).

17.Bin Wang, Ruimin Guo, Xingjun Wang, “Near-infrared electroluminescence in ErYb silicate based light-emitting device”, Optical Materials, 34(8), 1371 (2012).

18.Bin Wang, Rui Min Guo, Xingjun Wang, Lei Wang, and Zhiping Zhou, “Composition dependence of the Yb-participated strong up-conversions in polycrystalline ErYb silicate”, Optical Materials, 34(8), 1289 (2012).

19.Xingjun Wang, Bing Wang, Lei Wang, Ruimin Guo, Hideo Isshiki, Tadamasa Kimura, and Zhiping Zhou, “Extraordinary infrared photoluminescence efficiency of Er0.1Yb1.9SiO5 films on SiO2/Si substrates”, Applied Physics Letters, 98(7), 071903 (2011).

20.Ruimin Guo, Xingjun Wang, Kai Zang, Bing Wang, Lei Wang, Linfei Gao, and Zhiping Zhou, “Optical amplification in Er/Yb silicate strip loaded waveguide”, Applied Physics Letters, 99(16), 161115-1 (2011).

21.Ge Yuan, Xingjun Wang, Bin Dong, Bing Wang, Ruimin Guo, Lei Wang, and Zhiping Zhou, “Numerical analysis of amplification characteristics of ErxY2-xSiO5”, Optics Communications, 284(21), 5167 (2011).

22.Xingjun Wang, Ge Yuan, Hideo Isshiki, Tadamasa Kimura, and Zhiping Zhou, “Photoluminescence enhancement and high gain amplification of ErxY2-xSiO5 waveguide”, Journal of Applied Physics, 108(1), 013506-1 (2010).

23.Xingjun,Wang, Bin Dong, and Zhiping Zhou, “Phase transformation and photoluminescence properties of Er silicate films by sol-gel method”, Acta Physica Sinica, 59(5), 3554 (2010).

24.Xingjun Wang, Tadamasa Nakajima, Hideo Isshiki, and Tadamasa Kimura, “Fabrication and characterization of Er silicates on SiO2/Si substrates”, Applied Physics Letters, 95(4), 041906-1 (2009).

25.Dong, Bin; Liu, Dongping.; Wang, Xingjun; Yang, Tao; Miao, Shoumou; Li, Chengren; Optical thermometry through infrared excited green upconversion emissions in Er3+-Yb3+ codoped Al2O3, Applied Physics Letters, 2007, 90(18): 1811171-1811173.

26.Wang, Xingjun; Lei, Mingkai; Photoluminescence properties of Er3+-doped Al2O3 film synthesized from Er-ion-implanted gamma-AlOOH xerogel, Thin Solid Films, 2006, 497(1-2): 254-258.

27.Wang, Xingjun; Dong, Bin; Lei, Mingkai; Infrared absorption spectra of Er3+-doped Al2O3 nanopowders by the sol-gel method, Journal of Sol-Gel Science and Technology, 2006, 39(3): 307-311.

28.Wang, Xingjun; Lei, Mingkai; Preparation and photoluminescence of Er (3+)-doped Al2O3 films by sol-gel method, Thin Solid Films, 2005, 476(1): 41-45.

29.Wang, Xingjun; Lei, Mingkai; Yang, Tao; Wang, Hui; Phase structure and photoluminescence Al2O3 powders prepared by the properties of Er3+-doped sol-gel method, Optical Materials, 2004, 26(3): 247-252.

30.Wang, Xingjun; Lei, Mingkai; Yang, Tao; Cao, Baosheng; Coherent effect of Er3+-Yb3+ co-doping on enhanced photoluminescence properties of Al2O3 powders by the sol-gel method, Optical Materials, 2004, 26(3): 253-259.

31.Wang, Xingjun; Lei, Mingkai, Yang, Tao; Yuan, Lijiang; Phase transformation of Er3+-doped Al2O3 powders prepared by the sol-gel method, Journal of Materials Research, 2003, 18(10): 2401-2405.

会议成果

1.P. Q. Zhou, X. J. Wang, and Y. D. He. A hybrid silicon-based erbium silicate-silicon nitride waveguide laser. International Conference on Optical Instruments and Technology 2019 (OIT2019), OIT700-34, Beijing, China.

2.P. Q. Zhou, X. J. Wang, and Y. D. He. Effect of deposition mechanisms on the infrared photoluminescence of erbium-ytterbium silicate films under different sputtering methods. The 9th International Multidisciplinary Conference on Optofluidics 2019 (IMCO2019), 025750, Hongkong, China.

3.X. J. Wang, P. Q. Zhou. Er Silicate Amplifier and Laser for Silicon Photonics. International Conference on Energy, Materials and Photonics 2019 (EMP2019), Shanghai, China (Invited Speaker).

4.X. J. Wang, P. Q. Zhou, and Y. D. He. Er silicate amplifers and lasers for silicon photonics. Asia Communications and Photonics Conference 2019 (ACP2019), 3263236, Chengdu, Sichuan, China.

5.P. Q. Zhou, X. J. Wang, and Y. D. He. Infrared photoluminescence analysis and optimization of erbium- ytterbium silicate films under different sputtering method. 10th International Conference and Exhibition on Lasers, Optics & Photonics (Optics 2018), Los Angeles, USA (Young Invited Speaker).

6.Xingjun Wang, Bing Wang, Ruimin Guo, and Zhiping Zhou, “Photoluminescence and Electroluminescence of Erbium Yttrium and Ytterbium Co-doped Er silicates”, 2012 Photonics Asia, Beijing, 2012.

7.Bing Wang, Xingjun Wang, and Zhiping Zhou,“1.5μm electroluminescence of Erbium excited by hot carriers in ErRE (RE=Yb, Y) silicates”, 9th Group IV photonics conference, pp 72-74, 2012.

8.Ruimin Guo, Bing Wang, Linfei Gao, Lei Wang, Xingjun Wang, and Zhiping Zhou, “Small dimension hybrid SPP waveguide with low propagation loss”, 9th IEEE International Conference on Group IV Photonics, pp 240-242, San Diego, CA, United states, 2012.

9.Lei Wang, Ruimin Guo, Bing Wang, Xingjun Wang, and Zhiping Zhou, “Hybrid Si3N4-Er/Yb/Y silicate waveguide amplifier with 1.25dB/cm internal gain”, 2012 IEEE 9th International Conference on Group IV Photonics, pp 249-251, San Diego, CA, United states, 2012.

10.Bing Wang, Ge Yuan, Lei Wang, Ruimin Guo, Xingjun Wang, and Zhiping Zhou, “The Investigation on the 1.5μm Photoluminescence of Magnetron-Sputtered Er0.2Re1.8Si2O7 (Re=Yb, Y) Thin Films”, Symposium on Photonics and Optoelectronics (SOPO 2011), Wuhan, China, 2011.

11.Xingjun Wang, and Zhiping Zhou Optical properties of Er2-xYbxSiO5 waveguide for Silicon photonics”E-MRS 2010 Spring Meeting, 2010.

12.Xingjun Wang, Hideo Isshiki, Tadamasa Kimura, and Zhiping Zhou, “Enhanced Er3+ luminescence of Er silicate through Y and Yb co-doping”, 6th IEEE International Conference on Group IV Photonics, pp 69-71, San Francisco, CA, United states, 2009.

专利

1.王兴军，周佩奇，王冰，何燕冬.一种基于片上泵浦的铒硅酸盐波导放大器及其制备方法, 2019110609748（在审）.

2.王兴军，周佩奇，何燕冬.一种片上泵浦-信号光共振的铒硅酸盐激光器及其制备方法, 2019110609432（在审）.

3.王兴军，王胜铭，许超，叶蕊，张哲炜，周治平， “一种硅基纳米激光器制备方法”，CN104362512A.

4.王兴军、周治平、王磊、郭瑞民，一种光波导放大器的制备方法，中国, 中华人民共和国国家知识产权局, CN200910237301.5

5.王兴军、王冰、郭瑞民、王磊、周治平，一种硅基发光二极管的制备方法，中国, 中华人民共和国国家知识产权局, CN201010281011.3