王兴军 教授，博导

王兴军：北京大学教授 博士生导师

        教育部首批青年长江学者
        教育部“新世纪优秀人才”

研究方向：     高速硅基光电子集成器件与系统应用

                         硅基稀土发光材料与器件

邮箱：xjwang@pku.edu.cn

 

 

        王兴军，男，北京大学信息科学技术学院教授，博士生导师，2005年获大连理工大学工学博士学位，2005-2007在中科院物理所做博士后，2007-2009年任日本学术振兴会特别研究员（JSPS学者），2009年加入北京大学，任副教授、教授。2013年入选教育部新世纪优秀人才支持计划，2015年入选教育部首批青年长江学者。中国光学学会光电技术专业委员会委员、中国光学工程学会委员会委员、中国宇航学会光电技术专业委员会委员、亚洲光子学、国际光学仪器与技术等国际学术会议技术委员会委员。半导体学报、中国光学、激光杂志等期刊编辑，国家863信息领域项目评审专家、国家自然科学基金、教育部博士点基金、留学归国人员、北京市、天津市、辽宁省自然科学基金通讯评议人。Applied Physics Letters，Optic Letters, Optics Express等期刊审稿人。主要研究方向高速硅基光电子集成器件与系统应用、硅基稀土发光材料与器件。
        近5年承担或参与863、973、自然科学基金等十余项国家级研究课题，其中主持8项，包括国家自然科学基金重点项目负责人和863重大项目课题负责人。另外，主持国家自然科学基金2项，作为北大方负责人承担973课题1项、国家自然科学基金重点项目2项。在国内外主要期刊和重要学术会议共发表论文130余篇，SCI收录50余篇，其中影响因子10.0以上1篇，3.0以上20余篇，SCI他人引用565次，国际会议邀请报告11次，发明专利8项。撰写中英文专著2本。

 

学习简历：
◇ 1995.9-1999.7  大连理工大学  本科

◇ 1999.9-2001.7  大连理工大学  硕士

◇ 2001.9-2005.4  大连理工大学  博士

工作经历：

  ◇ 2005.4-2007.4  中国科学院物理研究所   博士后

  ◇ 2007.4-2009.4  日本电气通信大学   日本学术振兴会特别研究员

  ◇ 2009.2-至今   北京大学信息科学技术学院区域光纤通信网与新型光通信系统

               国家重点实验室   副教授、教授

 

所获奖励：

2015年   教育部首批青年长江学者

2013年   教育部“新世纪优秀人才”

2015年   中国光学工程学会科技创新奖获得者

2015年   北京大学电子学系优秀教师

2013年   北京大学正大奖教金

2013年   北京大学教学基本功大赛三等奖

2012年   北京大学教学成果二等奖

2007年   JSPS (日本学术振兴会)学者

2005年   中国博士后基金二等获得者

2004年   辽宁省优秀博士生

2003年   田中良平奖学金

 

研究领域：
◇ 高速硅基光电子集成器件与系统应用
◇ 硅基稀土发光材料与器件

承担的科研项目：

  ◇ 国家自然科学基金重点项目：面向规模集成的硅基高增益光波导放大器及激光器研究，300万， (2017-2021)  项目负责人

  ◇ 国家863十二五重大项目课题：硅基集成100Gb/s相干接收和传输芯片技术，1000万， (2011-2014)  项目负责人

  ◇ 国家973课题：纳米尺度新结构器件的可靠性基础问题研究，468万 (150万)，(2011-2015) 子课题负责人

  ◇ 国家自然科学基金重点项目：基于金属/介质纳米结构的表面等离子激元集成回路，250万 (50万)，(2010-2014) 北大方负责人

  ◇ 国家自然科学基金重点项目：基于硅基芯片的超大容量光通信技术研究，350万 (150万)，(2016-2020) 第二负责人

  ◇ 国家自然科学基金面上项目：高增益单晶铒镱/钇硅酸盐化合物纳米线光波导放大器研究，81万，(2014-2017) 项目负责人

  ◇ 国家自然科学青年基金项目：硅光子学集成用Er silicate光波导放大器应用基础研究，22万，(2009-2012) 项目负责人

  ◇ 区域光纤通信网与新型光通信系统国家重点实验室自主课题：硅基光电子，200万(2009-2012) 项目负责人

  ◇ 教育部博士点基金: 基于硅基稀土铒化合物和纳米硅复合结构的电致激发表面等离子体源，3.6万，(2011-2013) 项目负责人

  ◇ 留学归国人才启动基金：铒硅酸盐化合物光波导放大器应用基础研究，3.5万，(2010-2012) 项目负责人 

  ◇ 瞬态光学与光子技术国家重点实验室开放基金：光子晶体波导慢光关键技术及其在光延迟中的应用研究，5万，(2010-2012) 项目负责人

 

教学情况：

  ◇ 本科生专业课《光电子学基础》

  ◇ 本科生实验课《微机原理实验》和《光电子技术实验》

  ◇ 研究生课《光子学基础》和《Silicon Photonics》

 

发表的期刊论文：

1. *X. J. Wang, Z. Su, and Z. Zhou, "Recent progress of silicon photonics(in chinese)"(invited), Sci Sin-Phys Mech Astron., 2015, 45(1): 014201.

2. *X. J. Wang, S. M. Wang, and Z.Zhou "Low threshold Er_xYb(Y)_2−xSiO₅ nanowire waveguide amplifier" Applied Optics, 2015, 54(9): 2501.

3. H. Yi, T. Li, J. Zhang, *X. J. Wang, and Z. Zhou, "Temperature-independent broadband silicon modulator", Opt. Commun., 2015, 340: 107-109.

4. Z. Zhou, Z. Tu, T. Li, and *X. J. Wang, "Silicon Photonics for Advanced Optical Interconnections", J. Lightwave Technol., 2015, 33(4), 928.

5. M. Yin, W. Yang, Y. Li, *X. J. Wang, and H. Li, “CMOS-compatible and fabrication-tolerant MMI-based polarization beam splitter”, Optics Communications 335, 48-52 (2015).

6. M. Yin, W. Yang, Y. Li, *X. J. Wang,, and H. Li, “Ultrashort and Low-Loss Polarization Rotators Utilizing Hybrid Plasmonic-Dielectric Couplers”, IEEE Photon. Technol. Lett., 2014, 27(3), 229. 

7. Z. Tu, Z. Zhou, and *X. J. Wang, "Reliability characterization of silicon-based germanium waveguide photodetectors" Opt Eng.,53: 057103-1, 2014.

8. M. Yin, W. Yang, Y. P. Li, *X. J. Wang, and H. B. Li, “Compact and broadband mode multiplexer and demultiplexer based on asymmetric plasmonic–dielectric coupling”, APPLIED OPTICS, 53(27), 6175-6180(2014).

9. *X. J. Wang, and Z. Zhou, " Research progress of Er silicate light source materials and devices for silicon photonics application (in chinese)"(invited), Chinese Optics, 2014, 7(2): 18-22.

10. W. Yang, Y. P. Li, *X. J. Wang,  Z. Y. Wang, Ultra-compact optical 90° hybrid based on a wedge-shaped 2×4 MMI coupler and a 2×2 MMI coupler in silicon-on-insulator, Optics Express, 21(23), 28423 (2013).

11. T. T. Li, J. Zhang, H. Yi, Z. Zhou, *X. J. Wang, and H. Wu, Low-voltage, high speed, compact silicon modulator for BPSK modulatione, Optics Express, 21(20), 23410 (2013).

12. B. Wang, R. M. Guo, *X. J. Wang, L. Wang, and Z. Zhou, Large electroluminescence excitation cross section and strong potential gain of Erbium in ErYb silicate, Journal of Applied Physics, 113(10), 103108 (2013)

13. R. M. Guo, B. Wang, *X. J. Wang, and Z. Zhou, Suppression of second-order cooperative up-conversion in Er/Yb silicate glass, Optical Materials, 35, 935 (2013).

14. Y. W. Huang, Z. Tu, Y. P. Li, X. J. Wang, High extinction ratio polarization beam splitter with multimode interference on SOI, Optics Communications, 307, 46–49(2013).

15. H. Yi, Q. Long, W. Tan, L. Li, *X. J. Wang, and Z. Zhou, Demonstration of low power penalty of silicon Mach–Zehnder modulator in long-haul transmission, Optics Express, 20(25) 27562 (2012).

16. R. M. Guo, B. Wang, *X. J. Wang, L. Wang, and Z. Zhou, Optical amplification in Er/Yb silicate slot waveguide, Optics Letters, 37(9), 1427 (2012).

17. L. Gao, L. Tang, F. Hu, R. Guo, *X. J. Wang, and Z. Zhou, Active metal strip hybrid plasmonic waveguide with low critical material gain, Optics Express, 20(10) 11487-11495, (2013).

18. L. Wang, R. M. Guo, B. Wang, *X. J. Wang, and Z. Zhou, Hybrid Si₃N₄-Er/Yb Silicate Waveguides for Amplifier Application, IEEE Photonics Technology Letters, 24(11), 900 (2012).

19. B. Wang, *X. J. Wang, R. M. Guo, L. Wang, L. C Kimerling, and Z. 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).

20. B. Wang, R. M. Guo, *X. J. Wang, Z. Zhou, Near-infrared electroluminescence in ErYb silicate based light-emitting device, Optical Materials, 34(8), 1371 (2012)

21. B. Wang, R. M. Guo, *X. J. Wang, L. Wang, and Z. Zhou, Composition dependence of the Yb-participated strong up-conversions in polycrystalline ErYb silicate, Optical Materials, 34(8), 1289 (2012).

22. *X. J. Wang,, B. Wang, L. Wang, R. Guo, H. Isshiki, T. Kimura, and Z. Zhou, Extraordinary infrared photoluminescence efficiency of Er_0.1Yb_1.9SiO₅ films on SiO₂/Si substrates, Applied Physics Letters, 98(7), 071903 (2011).

23. R. M. Guo, *X. J. Wang, K. Zang, B. Wang, L. Wang, L. F. Gao, and Z. Zhou, Optical amplification in Er/Yb silicate strip loaded waveguide, Applied Physics Letters, 99(16), 161115-1 (2011).

24. G. Yuan, *X. J. Wang, B. Dong, B. Wang, R. M. Guo, L. Wang, and Z. Zhou, Numerical analysis of amplification characteristics of Er_xY_2-xSiO₅, Optics Communications, 284(21), 5167 (2011)

25. *X. J. Wang, .G Yuan, H. Isshiki, T. Kimura, and Z. Zhou, Photoluminescence enhancement and high gain amplification of Er_xY_2-xSiO₅ waveguide, Journal of Applied Physics, 108(1), 013506-1 (2010).

26. *X. J. 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). (in Chinese)

27. X. J. Wang, Z. Zhou, Phase transformation and photoluminescence properties of Er silicate films by sol-gel method, Structural and Photoluminescence Properties of Er₂O₃ Films by Sol-Gel Method, ACTA OPTICA SINICA, 39(7) (2010). (in Chinese)

28. *X. J. Wang,, T. Nakajima, H. Isshiki, and T. Kimura, Fabrication and characterization of Er silicates on SiO₂/Si substrates, Applied Physics Letters, 95(4), 041906-1 (2009).

29. *X. J. Wang, Bin Dong and Zhiping Zhou, Preparation and photoluminescence of high density SiO_x nanowires with Fe₃O₄ nanoparticles catalyst, Materials Letters, 63, 1149, (2009).

30. X. J. Wang, J. F. Tian, T. Z. Yang, L. H. Bao, F. Liu, C. M. Shen, N. S. Xu, and H. J. Gao. Formation and photoluminescence of boron nanocones. Chinese Physics, 17, (2008) 1647.

31. X. J. Wang, J. F. Tian, T. Z. Yang, L. H. Bao, F. Liu, C. M. Shen, N. S. Xu, and H. J. Gao. Single crystalline boron nanocones: electric transport and field emission properties. Advanced Materials, 19, (2007) 4480. 

32. B. Dong, D. P. Lin, *X. J. Wang and C. R. Li, Optical thermometry through infrared excited green upconversion emissions in Er³⁺-Yb³⁺ codoped Al₂O₃. Applied Physics Letters, 90, (2007) 181117.

33. X. J. Wang, J. F. Tian, L. H. Bao, C. Hui, F. Lui, C. M. Shen, and H. J. Gao. Large scale SiC/SiOx nanocables: synthesis, photoluminescence, and field emission properties. Journal of Applied Physics, 102, (2007) 014309.  

34. X. J. Wang, H. Wang, and M. K. Lei. In situ formation of Er³⁺-doped film from Er ion implanted gamma-AlOOH xerogel. Journal of Luminescence, (2008) 56. 254

35. X. J. Wang, B. Dong, and M. K. Lei. Infrared absorption spectra of Er³⁺-doped Al₂O₃ nanopowders by the sol-gel method. Journal of Sol-Gel Science and Technology, 39, (2006) 307. 

36. X. J. Wang, and M. K. Lei. Photoluminescence properties of Er³⁺-doped Al₂O₃ film synthesized from Er-ion-implanted gamma-AlOOH xerogel. Thin Solid Films, 497, (2005) 254.

37. X. J. Wang, and M. K. Lei. Preparation and photoluminescence of Er³⁺-doped Al₂O₃ films by the sol-gel method. Thin Solid Films, 476, (2005) 41.

38. X. J. Wang, M. K. Lei, T. Yang, and B. S. Cao. Coherent effect of Er³⁺-Yb³⁺ co-doping on enhanced photoluminescence properties of Al2O3 powders by the sol-gel method, Optical Materials, 26, (2004) 253. 

39. X. J. Wang, M. K. Lei, T. Yang, and H. Wang. Phase structure and photoluminescence properties of Er³⁺-doped Al₂O₃ powders prepared by the sol-gel method, Optical Materials, 26, (2004) 247

40. X. J. Wang, B. S. Cao, and M. K. Lei. Photoluminescence properties of Er³⁺-Yb³⁺ co-doped Al₂O₃ powders prepared by sol-gel method. Acta Photonica Sinica, 33, (2004) 935. (in Chinese).

41. X. J. Wang, T. Yang, J. Wang, and M. K. Lei. Er³⁺:Al₂O₃ optical films on SiO₂ substrate prepared by the sol-gel method. Acta Optical Sinica, 24, (2004) 397. (in Chinese).

42. X. J. Wang, T. Yang, and M. K. Lei. Er³⁺-doped Al₂O₃/SiO₂/Si optical waveguide films prepared by the sol-gel method. Chinese Journal of Lasers, 31 suppl.(2004) 465. (in Chinese).

43. X. J. Wang, H. Wang, T. Chen, and M. K. Lei. The photoluminescence of Er implanted A_l2O3 waveguide film. Chinese Journal of Lasers, 31 suppl. (2004) 323. (in Chinese).

44. X. J. Wang, M. K. Lei, T. Yang, and L. J. Yuan. Phase transformation of Er³⁺-doped Al₂O₃ powders prepared by sol-gel method. Journal of Materials Research, 18, (2003) 2401.

45. X. J. Wang, H. W. Chang, and M. K. Lei. Thermodynamic aspects of oxidation for Nb alloying TiAl intermetallic compounds. Acta Metallurgical Sinica, 37, (2001) 810. (in Chinese).

46. Z. J. Tu, Z. P. Zhou, X. J. Wang, Investigation of Random Telegraph Noise in the Dark Current of Germanium Waveguide Photodetector, IEEE J. Select. Top. Quantum Electron. 20: 3800306, 2014

47. T. Li, D. Wang, J. Zhang, Z. Zhou, F. Zhang, X. J. Wang, and H. Wu, “Demonstration of 6.25 Gbaud advanced modulation formats with subcarrier multiplexed technique on silicon Mach-Zehnder modulator”, Opt Express.,22(16), 19818-19823(2014).

48. Y. W. Huang, Z. Tu, Y. P. Li, X. J. Wang, Polarization beam splitter based on cascaded step-size multimode interference coupler, Optical Engineering 52(7) 077103 (2013)

49. L. Gao, F. Hu, X. J. Wang, L. Tang, Z. Zhou, Ultracompact and silicon-on-insulator-compatible polarization splitter based on asymmetric plasmonic–dielectric couperling, Applied Physics B - Lasers and Optics, 2013, 113(2): 199-203.

50. Z. Zhou, X. J. Wang, H. Yi, Z. Tu, W. Tan, Q. Long, M. Yin and Y. Huang, Silicon photonics for advanced optical communication systems, Optical Engineering 52(4), 045007 (2013).

51. G. Xiao, X. J. Wang and Z. Zhou, Propagation Properties of Symmetric Surface Plasmon Polaritons Mode in Au/Al2O3/Au Waveguide, IEEE Photonic. Tech. Lett., 24, 628, (2012).

52. J. B. Yang, *Z. Zhou, X. J. Wang , D. H. Wu, H. Yi, Compact double-layer subwavelength binary blazed grating 1 x 4 splitter based on silicon-on-insulator, Optics Letters, 36(6), 837, (2011)

53. G. Xiao, X. Ji, L. Gao, X. J. Wang and Z. Zhou, Effect of dipole location on profile properties of symmetric surface plasmon polariton mode in Au/Al2O3/Au waveguide, Front. Optoelectron. 2012, 5(1): 63-67

54. Z. Zhou, Z. J. Tu, H. X. Yi, and X. J. Wang, (Invited), Development Trends in Silicon Photonics, Chinese Optics Letters, 11(1), 012501, (2013).

55. Liang, Jian; Ren, Li-Yong, Yun, Mao-Jin, Han, Xu, X. J. Wang，Wideband ultraflat slow light with large group index in a W1 photonic crystal waveguide，Journal of Applied Physics, 2011，110(6): 0631031-0631035

56. Liang, Jian; Ren, Li-Yong, Yun, Mao-Jin, X. J. Wang，Wideband slow light with ultralow dispersion in a W1 photonic crystal waveguide，Applied Optics, 2011, 50(31), 98-103.

57. *Zhou, Zhiping, Wu, Huaming, Feng, Junbo, Hou, Jin, Yi, Huaxiang; X. J. Wang, Silicon nanophotonic devices based on resonance enhancement，Journal of Nanophotonics, 2010, 4: 041001-041008

58. B. Dong, B. S. Cao, X. J. Wang, Optical temperature sensing through extraordinary enhancement of green up-conversion emissions for Er-Yb-Mo:Al₂O₃, Sensors and Actuators B: Chemical, 165(1), 34, (2012).

59. B. S. Cao, Y. Y. He, B. Dong and X. J. Wang, Effect of Li⁺ Codoping on the Upconversion Emissions of E³⁺:Doped TiO₂, ACTA OPTICA SINICA, 30, 1580, (2010).

60. B. Dong, B. S. Cao, X. J. Wang, Up-Conversion Emissions of Er³⁺-Yb³⁺ Codoped Al₂O₃ Nanoparticles by the Arc Discharge Synthesis Method, Science in China Series G: Physics Mechanics& Astronomy, 52, 1043, (2009).

61. Z. Zhou, X. J. Wang, J. Feng, B. Wang, Progress and Development Trends of the Light Source for Silicon Based Micro-Nano Optoelectronic Systems, 6(10), 2009 (in Chinese).

62. B. Dong, B. S. Cao, Z. Q. Feng, X. J. Wang, Up-conversion emissions of Er³⁺-Yb³⁺ codoped Al₂O₃ nanoparticles by the arc discharge synthesis method, Science in China Series G-Physics Mechanics & Astronomy 52 (2009) 1043.

63. B. Dong, X. J. Wang, C. T. Li, Z. Q. Feng, and J. Z. Zheng. Arc discharge synthesis and up-conversion emissions of Er³⁺ doped Al₂O₃ nanoparticles, Materials Letters, 60 (2008) 3171. 

64. J. F. Tian, X. J. Wang, L. H. Bao, and H. J. Gao. Novel Boron Carbide and Silicon Oxide Hetero-nanonecklaces via Temperature Modulation. Crystal Growth & Design, 8 (2008) 3160.

65. B. Dong, X. J. Wang, C. R. Li, and D. P. Liu. Er³⁺-Y³⁺ codoped Al₂O₃ for high temperature sensing, IEEE Photonics Technology letters, 20, (2008) 147.

66. J. F. Tian, L. H. Bao, X. J. Wang, C. Hui, C. M. Shen, C. Z. Gu, and H. J. Gao. Probing Field Emission from Boron Carbide Nanowires. Chinese Physics Letters, 25 (2008) 3463.

67. L. H. Bao, Y. Tian, J. F. Tian, X. J. Wang, C. M. Shen, and H. J. Gao. Single crystalline boron carbide nanobelts: synthesis and characterization. Chinese Physics B, 17 (2008) 4247.

68. B. Dong, C. B. Li, and X. J. Wang. Two color up-conversion emissions of E^r3+ doped A_l2O3 nanopowders prepared by non-aqueous sol-gel method. Journal of Sol-Gel Science and Technology, 44, (2007) 161.

69. J. F. Tian, F. Liu, C. M. Shen, and X J. Wang. A thermal reduction route to synthesizing single crystalline vanadium dioxide nanoflake. Journal of Materials Research, 22, (2007) 1922.

70. B. Dong, X. S. Xu, X. J. Wang, T. Yang, and Y. Y. He. Infrared-to-visible up-conversion emissions and thermometric applications of E^r3+ doped Al2O3. Applied Physics B, 89, (2007) 281.

71. T. Yang, X. J. Wang, and M. K. Lei. High-temperature phase transformation of Er³⁺-doped boehmite (AlOOH) gels during sintering. Journal of Inorgnaic Materials, 19, (2004) 671. (in Chinese)

72. M. K. Lei, and X. J. Wang. Theoretical analysis of binary Fe-N phase diagrams at low temperatures. Journal of Inorgnaic Materials, 18, (2003) 899. (in Chinese). 

73. M. K. Lei, and X. J. Wang. Thermodynamical phase equilibrium of iron nitrides at low temperatures, Chinese Physics Letters, 19, (2002) 1721.

74. M. K. Lei, B. S. Cao, X. J. Wang, and T. Yang. Corrosion resistance of Al₂O₃ biomedical nanometer coatings on AISI 304 austenitic stainles- steel. Journal of Dalian University, 25 (2004) 14.

75. M. K. Lei, X. P. Zhu, and X. J. Wang. Oxidation resistance of ion-implanted TiAl-base intermetallics. Oxidation of Metals, 58 (2002) 361.                

 

Conference Proceedings

1. *X. J. Wang, Z. Zhou, The International Symposium on Photonics and Optoelectronics (SOPO 2015) (WCAM-2015), "50Gb/s Si photonics integration chip for high speed optical communication August 22-24, 2015 Shanghai (Invited)

2. *X. J. Wang, Z. Zhou, 4th Annual World Congress of Advanced Materials-2015 (WCAM-2015), "Er silicate nanowire light source" May. 27-29, 2015, Shongqing (Invited)

3. *X. J. Wang, Z. Zhou, 2015 EMN Optoelectronics Meeting "Er silicate light source for silicon photonics" April 24 to 27, Beijing (Invited)

4. *X. J. Wang, Z. Zhou, 2015 EMN East Meeting, "Ultrashort and Low-loss Si based multiplexing devices" April 20 to 23, Beijing (Invited)

5. *X. J. Wang, Z. Zhou, International conference on optoelectronics and microelectronics technology and application (OMTA) 2014, "Si based light source for silicon photonics" Nov. 12-14, 2014, Tianjing (Invited)

6. *X. J. Wang, Z. Zhou, 9th Silicon Photonics Materials and Devices Conference, "Silicon based integration devices for high speed optical communications" June 22-25. 2014 Wuhan, (Invited)

7. *X. J. Wang, Z. Zhou, Optoelectronics Technology and System Application Conference "Er silicate nanowire light source" Oct. 24-27, 2014, Nanjing (Invited)

87. *X. J. Wang, Z. Zhou, First International Symposium of Micro-Nanosystem Luminescence and Their Optoelectronic Properties (First ISMLOP), Low threshold Er_xYb(Y)_2-xSiO₅ nanowire waveguide amplifier" July 23-25, 2014, Changchun (Invited)

9. *X. J. Wang, Z. Zhou, "Fabrication and Characterization of Er silicate Compound Nanowire Light Source" SPIE—2014 Photonics ASIA Oct. 9-11, 2014

10. Z. Zhou, *X. J. Wang, Z. Tu, T. Li and W. Yang, "Silicon photonics for advanced optical interconnections"  IEEE Optical Interconnects Conference (OIC), California, May 4-7, 2014   (Invited)

11. Z. J. Tu, Z. Zhou, *X. J. Wang, 2014 Photonics West Fab 3-6, 2014 (Invited)

12. Z. Zhou, X. J. Wang, H. Yi, Z. Tu, W. Tan, Q. Long, M. Yin, and Y. Huang, Silicon photonics for advanced optical communication systems, SPIE Proceeding on Optoelectronic Interconnects XIII, Vol. 8630, 863040, 2013. (Invited)

13. *Zhou, Zhiping，Citrin, D.S，Wu, Huaming，Yi, Huaxiang，Hou, Jin，Hao, Ran，Cassan, E.，X. J. Wang，“Silicon nanophotonic devices based on periodic structures”，2010 7th IEEE International Conference on Group IV Photonics, Sep. 1-3, 2010, 28-30, Beijing, China, (Invited)

14. Z. W. Zhang, C. Xu, *X. J. Wang, "Fabrication of Er_xYb_2-xSiO₅ nanowire", The 2015 International Conference on Optical Instrument and Technology (OIT’2015)  May 17-19, Beijing

15. W. Yang, Y. Li, *X. J. Wang, and Z. Wang, “Nanoscale silicon optical 90º hybrid for TM polarization in coherent receiving system”, Proc. GFP 2014, pp.WP17 73-74.

16. W. Yang, Y. Li, *X. J. Wang,, and Z. Wang, “An ultracompact silicon polarization beam splitter based on mode conversion in multimode waveguide”, OFC 2014, pp. Th2A.16.

17. L. Yu, L. Liu, Z. Zhou, and X. Wang,  "High efficient vertical binary blazed grating coupler for chip level optical interconnections", CLEO, San Joes, June 8-13, 2014

18. Wang, Dan，Li, Tiantian，Zhang, Junlong，Zhang, Fan，Zhou, Zhiping，*X. J. Wang, Wu, Hequan，100Gbps, 160 km IM-DD transmission of WDM Nyquist-16QAM signal based on silicon Mach-Zehnder modulator，2014 European Conference on Optical Communication, ECOC 2014，Cannes, France，Sep. 21-25, 2014.

19. W. Yang, M. Yin, Y. P. Li, *X. J. Wang, Compact and low-loss optical 90° Hybrid based on silicon-on-insulator, Asia Communications and Photonics Conference, Beijing, November 12-15, 2013 Post-Deadline.

20. T. Li, J. Zhang, H. Yi, W. Tan, Q. Long, Z. Zhou, *X. J. Wang, and H. Wu, 10-Gb/s 53.1-km BPSK transmission of silicon Mach-Zehnder modulator, Asia Communications and Photonics Conference, Beijing, November 12-15, 2013

21. Long, W. Tan, J. Zhang, H. Yi, T. Li, Z. Zhou, and *X. J. Wang, High bandwidth Silicon Mach-Zehndermodulator with 1V*cmVπL, Asia Communications and Photonics Conference, Beijing, November 12-15, 2013

22. M. Yin, W. Yang, Y. P. Li, *X. J. Wang, “A Compact Polarization Beam Splitter based on Silicon-on-Insulator”, Asia Communications and Photonics Conference, Beijing, November 12-15, 2013 

23. Mei Yin, Wei Yang, Yawen Huang, Huaxiang Yi, Yanping Li, *X. J. Wang, Hongbin Li, “Compact and wideband optical 90° hybrid based on silicon-on-insulator”, Proc. GFP 2013, pp. WP12 57–58.

24. H. Yi, Y. Huang, *X. J. Wang, and Z. Zhou, Ultra-short silicon MMI duplexer, SPIE Proceeding on Nanophotonics and Micro/Nano Optics, 2012.

25. W. Tan, Q. Long, Z. Tu, *X. J. Wang, H. Yi, Z. Zhou,"Low loss optical modulator based on slot-loaded waveguide for unmodified CMOS process, SPIE Proceeding on Nanophotonics and Micro/Nano Optics, 2012.

26. X. J. Wang, B. Wang, R. Guo, L. Wang, and Z. Zhou, Photoluminescence and Electrolumin escence of Erbium Yttrium and Ytterbium Co-doped Er silicates,  SPIE Proceeding on Nanophotonics and Micro/Nano Optics, 2012.

27. Z. Tu, K. Liu, H. Yi, R. Zhou, *X. J. Wang, Z. Zhou, and Z. Chen, A Compact Evanescently-coupled Germanium PIN Waveguide  Photodetector,  SPIE Proceeding on Nanophotonics and Micro/Nano Optics, 2012.

28. R. Wang, *X. J. Wang, Z. Zhou, Photocurrent enhancement in plasmonic solar cells attached to luminescent solar concentrators", SPIE Proceeding on High and Low Concentrator Systems for Solar Electric Applications VII, Vol. 8468, 84680B,2012.

29. L. Wang, R. Guo, B. Wang, *X. J. Wang, Z. Zhou, Hybrid Si3N4-Er/Yb/Y silicate waveguide amplifier with 1.25dB/cm internal gain, 9th Group IV photonics conference, San Diego, USA, Aug. 29-31, 2012.

30. R. Guo, B. Wang, L. Wang, L. Gao, *X. J. Wang, Z. Zhou, Small dimension hybrid SPP waveguide with low propagation loss, 9th Group IV photonics conference, San Diego, USA, Aug. 29-31, 2012.

31. B. Wang, R. Guo, L. Wang, *X. J. Wang, Z. Zhou, 1.53 μm electroluminescence of Erbium excited by hot carriers in ErRE (RE=Yb, Y) silicates, 9th Group IV photonics conference, San Diego, USA, Aug.  29-31, 2012.

32. Wang, Renze; X. J. Wang,; *Zhou, Zhiping，Photocurrent enhancement in plasmonic solar cells attached to luminescent solar concentrators, High and Low Concentrator Systems for Solar Electric Applications VII, 2012/8/13-2012/8/15, San Diego, CA, United states, 2012

33. T. Hong, W. Yang, H. Yi, *X. J. Wang, Y. Li, Z. Wang, Z. Zhou, Optical 90° Hybrids Based on Silicon-on-Insulator Multimode Interference Couplers, SPIE Proceeding on Physics and Simulation of Optoelectronic Devices XX, Vol. 8255, 82551Z, 2012.

34. *X. J. Wang, Z. Zhou, Optical properties of Er_2-xYb_xSiO₅ waveguide for Silicon photonics  E-MRS 2010 Spring Meeting, 2010/6/11-2010/6/13, 2010/6/11.

35. *X. J. Wang, H. Isshiki, T. Kimura, and Z. 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, 2009/9/9.

36. B. Wang, G. Yuan, L. Wang, R. M. Guo, *X. J. Wang, and *Z. Zhou, The Investigation on the 1.5μm Photoluminescence of Magnetron-Sputtered Er_0.2Re_1.8Si₂O₇ (Re=Yb, Y) Thin Films, Symposium on Photonics and Optoelectronics, SOPO 2011, Wuhan, China, 2011/5/16.

37. *T. Nakajima, X. J. Wang, T. Kimura, H. Isshiki, Luminescence properties of Er_xY_2-xSiO₅ thin film prepared by sol-gel method, 2009 6th IEEE International Conference on Group IV Photonics, pp 134-136, San Francisco, CA, United states, 2009/9/9.

38. X. J. Wang, J. F. Tian, L. H. Bao, C. M. Shen, and H. J. Gao. Single crystalline boron nanocones, 2008 MRS Fall Meeting, USA, December 1-5 (2008) (Boston, USA).

39. X. J. Wang, H. Isshiki, and T. Kimura. Structure and photoluminescence comparison of Er₂SiO₅ and Er₂O₃ prepared by sol-gel method, the 5thproceeding of Group IV on Silicon Photonics, Italy, September, 19-21, (2008) (Sorrento, Italy).

40. X. J. Wang, T. Kimura, and H. Isshiki. Crystalline structure and luminescence properties of Er silicate fabricated on Si and SiO₂/Si by the sol-gel method, the 5th proceeding of Group IV on Silicon Photonics, Italy, September, 19-21, (2008) (Sorrento, Italy).

41. X. J. Wang, T. Nakajima, H. Isshiki, and T. Kimura. The effect of phase structure on PL properties for Er compound, 69^th Symposium of JSAP-Japan, September, 2-4, (2008) (Nagoya, Japan).

42. X. J. Wang, T. Nakajima, H. Isshiki, and T. Kimura, ErSiO Self-organized Superlattice Crystals as a 1.54 m Luminescent Material, 3rd KUMTT-UEC Workshop, August, 19 (2008) (Tokyo, Japan).                                                                      

43. X. J. Wang, H. Isshiki, and Kimura. Er silicate formation process by reaction of Er-O and SiO films, 55th conference of Japan Society of Applied Physics, Tokyo, March 27-29, (2008) (Tokyo, Japan)

44. X. J. Wang, and B. Dong. High density SiOx nanowires: preparation and photoluminescence, 18^th Symposium of MRS-Japan, Tokyo, December 7-9, (2007) (Tokyo, Japan)

45. X. J. Wang, J. F. Tian, L. H. Bao, H. Isshiki, and Kimura. Preparation of high density SiC/SiO nanocables and their photoluminescence, field emission properties, Advanced semiconductor conference of Meiji University, Tokyo, October 6, (2007). (Tokyo, Japan)

46. X. J. Wang, J. F. Tian, L. H. Bao, and H. J. Gao. Large-scale synthesis of SiC/SiO nanocables by a simple method. Proceedings of 6thSymposium on Physics China, Beijing, September 15-17, (2006) (Beijing, China).

47. F. Liu, J. F. Tian, and X. J. Wang, Fabrication of Novel Magnetite Nano-Pyramid Field Electron Emitters. IEEE 19^th International Vacuum Nanoelectronics Conference & 50^th International Field Emission Symposium. (2006) 367.

48. X. J. Wang, T. Yang, and M. K. Lei. Er-doped Al₂O₃/SiO/Si optical waveguide films prepared by the sol-gel method. Proceedings of 16thSymposium on Lasers, Shanghai, October 19-22, (2003) (Shanghai, China). (in Chinese).

49. X. J. Wang, H. Wang, T. Chen, and M. K. Lei. The photoluminescence of Er implanted Al₂O₃ waveguide film. Proceedings of 16th Symposium on Lasers, Shanghai, October 19-22, (2003) (Shanghai, China). (in Chinese).

50. M. K. Lei, X. J. Wang, T. Yang, B. Dong, H. Wang, and Z. H. Zhu. The rare earth ion doped waveguide materials by the sol-gel method. Proceedings of 3rd symposium on sol-gel, Hangzhou, May 29-31, (2004) (Hangzhou, China). (in Chinese).

51. M. K. Lei, X. J. Wang, T. Yang, B. Dong, H. Wang, and Z. H. Zhu. The Er-doped Al₂O₃ optical films. Proceedings of 11th symposium on luminescence. Dalian, August 25-30, (2004) (Dalian, China). (in Chinese).

52. T. Yang, X. J. Wang, H. Wang, and M. K. Lei. The structure of Er-doped Al₂O₃film by sol-gel method. Proceedings of 3rd symposium on sol-gel, Hangzhou, May 29-31, (2004) (Hangzhou, China). (in Chinese).

53. B. Dong, X. J. Wang, and M. K. Lei. The energy transfer of Er-Yb co-doped Al₂O₃ powders prepared by sol-gel method. Proceedings of 10^th symposium on luminescence. Dalian, August 25-30, (2004) (Dalian, China).

54. F. Liu, J. F. Tian and X. J. Wang. Fabrication of Novel Magnetite Nano-Pyramid Field Electron Emitters. 19^th International Vacuum Nanoelectronics Conference & 50th International Field Emission Symposium. (2006) (Guangzhou, China).

55. J. F. Tian, F. Liu, X J Wang, and H. J. Gao. A New Route to Single Crystalline Vanadium Dioxide Nanoflakes via Thermal Reduction, Proceedings of 7th Symposium on Physics China, Nanjing, September 18-20, (2007) (Najing, China).

56. J. F. Tian, L. H. Bao, X. J. Wang, and H. J. Gao. Synthesis and field emission properties of high density boron carbide nanowires, Nano and surface science conference of China, Hefei, November, 28-30, (2007) (Hefei, China)

 

Patents:

1.         W. Yang, Y. P. Li, X. J. Wang, et al. A kind of optical polarization beam splitter, 201410186887.8  (in Chinese).

2.         M. Yin, Y. P. Li, X. J. Wang, et al. A kind of optical polarization beam splitter, 201410191953. (in Chinese).

3.         Z. Zhou, X. J. Wang, et al. Silicon integrated coherent receiver 201410539976.6 (in Chinese).

4.         Z. Zhou, X. J. Wang, et al. Silicon integrated transmitter 201410539951.6 (in Chinese).

5.         X. J. Wang, Z. Zhou et al. The method to fabricate silicon nano laser 2014105391088 (in Chinese)

6.         Z. Zhou, H. X. Yi, X. J. Wang, et al. The preparation method of a kind of optical waveguide amplifier, ZL200910237301.5  (in Chinese).

7.         X. J. Wang, Z. Zhou. The preparation method of a kind of silicon-based light emitting diode ZL201010281011.3 (in Chinese).

8.         X. J. Wang, Z. Zhou. A kind of optical waveguide modulator ZL201110219567.4 (in Chinese).

9.         M. K. Lei (Supervisor), X. J. Wang, T. Yang, H. Wang, and B. S. Cao. The Er³⁺-doped Al₂O₃ waveguide film by sintering the Er ion implanted AlOOH xerogel film. ZL1560658. (in Chinese).

10.     H. J. Gao (Supervisor), X. J. Wang, C. M. Shen, J. F. Tian, and C. Hui. Preparation, electric and field emission of single crystalline boron nanocones. ZL200710121358.X (in Chinese).