王海龙 教授

发布时间:2024-03-11来源:伟德国际1946源于英国 浏览次数:

王海龙 教授


本人资料

通讯地址:山东省曲阜市静轩西路57

电子邮件:phyhlwang71@126.comhlwang@qfnu.edu.cn

办公地址:伟德国际1946源于英国517

办公电话:0537-4456168


个人简历

教育背景:

19907月专科毕业于聊城师范学院;

19927 本科毕业于伟德国际victor1946获学士学位;

19957 硕士研究生毕业于北京师范大学获硕士学位;

20007 博士研究生毕业于中国科学院半导体研究所获博士学位;


工作经历

19957月开始在伟德国际victor1946物理系工作,历任助教(1995)、讲师(1997)、副教授(2000)、教授(2006),硕士生导师(2007),博士后合作导师(2010),博士生导师(2012), 期间:

日本电信电话株式会社(NTT) 物性科学基础研究所, 博士后(2000.09-2002.08

香港理工大学 电子及资讯工程系, Research Fellow 2002.09-2003.07

日本国际电气通信基础技术研究所(ATR)Research Fellow2003.08-2005.03


教学工作

主要从事本科生、研究生基础课和专业课的教学工作,主讲过的课程有热力学与统计物理、固体物理、光电子技术与光纤通信、半导体物理学、光电材料与器件、固体光电性质、现代物理选讲等。主持热力学与统计物理校级精品课程建设。


研究兴趣

凝聚态光电性质, 半导体光电子学,光通信与量子通信等


曾获奖励

山东省科学技术奖(自然科学三等奖)(首位) 2020年)

伟德国际victor1946优秀教师(2019年)

第十四届山东省大学生物理教学技能大赛优秀指导教师(2019年)

山东省高等学校科学技术奖(本科高校类一等奖)(首位) 2017年)

济宁市优秀科技工作者(2013年)

山东省研究生优秀科技创新成果三等奖(第二位) 2013年)

山东省海外专业人士创新创业成就奖 (2011)

山东省优秀硕士学位论文(导师)(20102019

山东省优秀学士学位论文(导师)(2012年)

伟德国际victor1946优秀共产党员 (2011)

伟德国际victor1946优秀研究生指导教师(2009, 2011, 20132018)

伟德国际victor1946研究生教育先进工作者(2008, 2010, 2016)

国家级大学生创新创业训练计划项目(指导教师)(2014, 2017


科研项目

1. 2017.01-2020.12, 单片集成硅基量子点激光器的研究(61674096),经费:62万元,国家自然科学基金委。(主持)

2. 2012.01-2015.12,1.5-1.7微米波段宽调谐InAs/InP量子点外腔激光器的研究(61176065), 经费:70万元,国家自然科学基金委。(第二位)

3. 2010.01-2012.12, GSMBE 1.55微米 InAs/InGaAsP 量子点激光器材料与器件(60976015), 经费:40万元,国家自然科学基金委。(主持)

4. 2014.12—2017.111.55微米InAs/InGaAsP量子点半导体光放大器材料与器件(ZR2014FM011),经费:18万元,山东省自然科学基金委。(主持)

5. 2010.11—2013.11InAs/InP量子点外腔激光器(ZR2010FM023),经费:7万元,山东省自然科学基金委。(主持)

6. 2006.1-2008.12 应力驱动微结构自组装方法的理论及实验研究,经费:2万元,教育部留学回国人员科研启动基金。(主持)

7. 2014.1—2015.12III-V融合材料和稀铋材料中杂质缺陷的研究,经费:10.0万元,国家重点实验室开放课题。(主持)

8. 2009.6-2011.5 应变自组装方法制作三维半导体微纳米结构的理论与实验研究,经费:10.0万元,国家重点实验室开放课题。(主持)

9. 2008.1-2010.12 THz量子级联激光器及探测器中多量子阱能带计算,经费:10.0万元,中科院重点实验室开放课题。(主持)


代表性论著

1. Haixuan Gao, Chuanhe Ma, Jinhui Zhang, Jinchun JiangYe Chen, Lin Sun, Hailong Wang, Exploring New Cadmium Salts to Enhance the Photovoltaic Conversion Efficiency of Cu2ZnSn(S,Se)4 Solar Cell, Energy & Fuels, 38(4), 3428-3435( 2024). (通讯作者)

2. Jinhui Zhang, Chuanhe Ma, Haixuan Gao, Jinchun JiangHailong Wang, Differential effects of MoO3 and MoO2 sacrificial layers on the J-V performance of Cu2ZnSn(S,Se)4 solar cells, Sustainable Energy & Fuels, 8(3), 604-609( 2024).(通讯作者)

3. Xue Li,Yongmei Li, Hailong Wang, Wen Liu, Jiyong FuElectro-optical control of spin-orbit coupling in AlInAs/GaInAs single and double quantum wells, Physics Letters A, 494129280( 2024). (共同通讯作者)

4. Antian Du, Chunfang Cao, Shixian Han, Hailong Wang, Qian Gong, Continuous-wave operation of Si-based 1.31-μm InAs/GaAs quantum-dot laser grown by molecular beam epitaxy, Physica Scripta, 98, 085523 (2023). (共同通讯作者)

5. 杜安天,刘若涛,曹春芳,韩实现,王海龙,龚谦,利用 InAs/GaAs 数字合金超晶格改进 InAs 量子点有源区的结构设计,物理学报72 (12), 128101 ( 2023). (共同通讯作者)

6. 杜安天,曹春芳,韩实现,王海龙,龚谦,有源区Be掺杂对1.3μm InAs量子点激光器性能的影响,红外与毫米波学报42 (4),450-456 ( 2023). (共同通讯作者)

7. Xue Li, Yongmei Li, Hao Yang, Wen Liu, Hailong Wang, Ning Hao , Jiyong Fu , Ping Zhang, Electrical gate assisted optical multisubband spin-orbit control in GaInAs/AlInAs quantum wells with tilted nonresonant laser fields, Physical Review B, 108(23), 235429(2023).

8. Linan Ma, Shiling Li, Hailong Wang, Shengqiang Zhou, Tan Yang, Ion irradiation of monolayer graphene-Nd:YAG hybrid waveguides: fabrication and laser, Optics Express31(11)17769-17781 ( 2023).

9. Wenfu Yu, Xuyi Zhao, Shixian Han, Antian Du, Ruotao Liu, Chunfang Cao, Jinyi Yan, Jin Yang, Hua Huang, Wang, Hailong Wang, Qian Gong, InAs/GaAs quantum dot laterally coupled distributed feedback lasers at 1.3 μm, Chines Optics Letters, 21(1), 011402 ( 2023).

10. Shixian Han, Jinyi Yan, Chun-fang Cao, Jing Yang, Xuyi Zhao, Wenfu Yu, Antian Du, Ruotao Liu, Wenxin Hu, Yuanyu Chen, Hailong Wang, Qian Gong, 2.7 μm GaSb-based distributed feedback lasers with laterally coupled gratings, Physica Scripta, 97(12), 125014 (2022).

11. Xue Li, Wei Wang, Ning Zhao, Hao Yang, Shixuan Han, Wen Liu, Hailong Wang, Fanyao Qu, Ning Hao, Jiyong Fu, Ping Zhang, Intense high-frequency laser-field control of spin-orbit coupling in GaInAs/AlInAs quantum wells: A laser dressing effect, Physical Review B, 106, 155420 (2022).

12. Xuyi Zhao, Chunfang Cao, Antian Du, Wenfu Yu, Shixian Han, Ruotao Liu, Yuanyu Chen, Jinyi Yan, Jin Yang, Hua Huang, Hailong Wang, Qian Gong, High Performance Interband Cascade Lasers With AlGaAsSb Cladding Layer, IEEE Photonics Technology Letters, 34(5) 291-294( 2022).

13. 李晓博,王海龙,马利男,龚谦,基于光子晶体的量子点半导体光放大器波长转换特性的研究.光学学报, 42(2):0206001(2022). (通讯作者)

14. Shuai Yang, Xinle Lu, Jian Zhang, Hailong Wang, and Liaoxin Sun, Reversible tuning from multi-mode laser to single-mode laser in coupled nanoribbon cavity, Applied Physics Letters Applied Physics Letters, 118, 171101 (2021).

15. X Cao, H Wang, M Hu, Z Jia, Exciton States in ZnO/MgZnO Quantum Wells under Electric Field and Magnetic Field, Physics of the Solid State, 63(8): 1137-1144(2022). (通讯作者)

16. Yuqian Wang, Hailong Wang, Xuechun Kong, Shuai Yang, Min Hu, Qian Gong, Research on output characteristics based on QDSOA and QDRSOA cross gain modulation alloptical logic NOR gate, Optical and Quantum Electronics, 53(12), 715(2021).通讯作者)

17. Xue Li, Hailong Wang, Min Hu, Qian GongEffects of Laser Field and Electric Field on Exciton States in InAs/InxAl1-xAs Quantum WellsJournal of Nanophotonics 15(4)046003 (2021).通讯作者)

18. ZS Jia, HL Wang, CH Ma, X Cao, Q Gong, Electron-electron scattering rate in CdTe/CdMnTe single quantum well, International Journal of Modern Physics B, 35(21) 2150221 (2021) .通讯作者)

19. Xuyi Zhao, Wenfu Yu , Shixian Han, Antian Du, Siwei Lin, Min Li, Chunfang Cao, Jin Yang, Hua Huang , Hailong Wang, Qian Gong, The optimization of InGaAs/InGaP quantum wells grown by gas source molecular beam epitaxy, Journal of Crystal Growth, 572,126281(2021).

20. Min Hu, Wang Hailong, Gong QianThe impurity states in InGaAsP/InP coaxial double quantum well wires with the effects of electric and magnetic fieldsModern Physics Letters B35(21)2150355 (2021).

21. Linan Ma, Shiling Li, Hailong Wang, Enhanced nonlinear optical properties of RGO via Au modification: application for Q-switched waveguide laser, Optical Materials Express, 11 (6), 1583-1591(2021).

22. Shi-Ling Li, Yong-Kai Ye, Hai-Long WangCladding waveguide lasers in femtosecond laser written Nd: KGW waveguidesOptical Materials110110517(2020).

23. Min Hu, Wang Hailong, Gong QianThe impurity states in different shaped quantum well sunder applied electric fieldInternational Journal of Modern Physics B, 34(25), 2050224(2020).(共同通讯作者)

24. Min Hu, Wang Hailong, Gong QianImpurity states in a GaN/AlxGa1-xN spherical quantum dot under an applied electric fieldJournal of Nanophotonics 14(4)046017 (2020).通讯作者)

25. Min Hu, Wang Hailong, Gong QianImpurity states in InGaAsP/InP core–shell quantum dot under external electric field, Journal of Nanophotonics 14(3)036009-1-8(2020)通讯作者)

26. 李金友,王海龙, 锦,曹春芳,赵旭熠,于文富,龚 谦,InGaAs/GaAs/InGaP量子阱激光器的温度电压特性,发光学报418):971-976(2020). (通讯作者)

27. Shu-ChaoMi, Hai-LongWang, Shu-YuZhang, QianGongResearch of all-optical NAND gates based on quantum dot semiconductor optical amplifiers cascaded connection XGM and XPMOPTIK, 202, 163551(2020) 通讯作者)

28. Xuegang Zheng, Guangliang Cui, Siwei Yang, Shouyan Zhang, Xuanhao Yuan, Jianfu Li, Pinhua Zhang, Guqiao Ding, Hailong Wang, Highly solid-luminescent graphitic C3N4 nanotubes for white light-emitting diodes, Journal of Physics D-Applied Physics, 52(50), 505503 (2019).

29. Min Hu, Wang Hailong, Gong Qian, Wang ShuminExciton states in InGaAsP/InP core–shell quantum dots under an external electric fieldJournal of Computational Electronics18(4):1243–1250(2019).通讯作者)

30. Min Hu, Wang Hailong, Gong Qian, Wang ShuminThe External Electric and Magnetic Fields Effect on Binding Energy of Hydrogenic Donor Impurity in a InGaAsP/InP Core–Shell Quantum Dot, Journal of Nanoelectronics and Optoelectronics, 14(7), 1016~1023 (2019). (共同通讯作者)

31. Xuegang Zheng, Guqiao Ding, Hailong Wang, Guangliang Cui, Pinhua Zhang, One-step hydrothermal synthesis of carbon dots-polymer composites with solid-state photoluminescence, Materials Letters, 23822–25 (2019).

32. Min Hu, Hailong Wang, Qian Gong, Shumin Wang, The impacts of electric and magnetic field on the binding energy of hydrogenic donor impurity in a InGaAsP/InP ring-shaped quantum well wire, Indian Journal of Physics, 92(11), 1389-1395 (2018). (通讯作者)

33. Shi-Ling Li,Yongkai Ye,Chuan-Ying Shen, Hai-Long Wang, Femtosecond laser inscribed cladding waveguide structures in LiNbO3 crystal for beam splitters, Optical Engineering 57(11), 117103 (2018).

34. Shi-Ling Li, Ze-Ping HuangYongkai Ye, Hai-Long Wang, Femtosecond laser inscribed cladding waveguide lasers in Nd:LiYF4 crystalsOptics and Laser Technology, 102, 247-253 (2018).

35. Min Hu, Hailong Wang, Qian Gong, Shumin Wang, External electric field effect on the binding energy of a hydrogenic donor impurity in InGaAsP/InP concentric double quantum rings, International Journal of Modern Physics B, 32(11), 1850138 (2018). (通讯作者)

36. Fangfang Sun, Liaoxin Sun, Bo Zhang, Gang Chen, Hailong Wang, Xuechu Shen, Wei Lu, Optical Waveguide of Buckled CdS Nanowires Modulated by Strain-Engineering, ACS Photonics, 5(3), 746-751(2018).

37. Fangfang Sun, Liaoxin Sun, Bo Zhang, Hailong Wang, Spatially resolved surface-related exciton polariton dynamics in a single ZnO tetrapod, Solid State Communications,  270, 107–110(2018). (共同通讯作者)

38. Min Hu, Hailong Wang, Qian Gong, and Shumin Wang, Comparison of external electric and magnetic fields effect on binding energy of hydrogenic donor impurity in different shaped quantum wells, The European Physical Journal B 91(1), 19 (2018). (通讯作者)

39. Xuyi Zhao, Peng Wang, Chunfang Cao, Jinyi Yan, Fangxing Zha, Hailong Wang, Qian Gong, Annealing effect of the InAs dot-in-well structure grown by MBE, Journal of Crystal Growth 480, 115–118 (2017) .

40. 杨文华,王海龙,王兆翔,韦志禄,龚谦,量子点半导体光放大器的波长转换效率,光学学报37(4), 0406005-1-8(2017)。(通讯作者)

41. Min Hu, Hailong Wang, Qian Gong, Shumin Wang, Electronic states in low-dimensional nano-structures: Comparison between the variational and plane wave basis method, Superlattices and Microstructures, 104, 37-45 (2017).(通讯作者)

42. Hai-xin Xu, Hai-long Wang, Qian Gong, Jin-yi Yan, Chun-fang Cao, Yang Wang, Jin-jin Gao and Wang-peng Zhao, External cavity lasers using stripe mirrors with different mirror width, Journal of Modern Optics, 64(13), 1330–1334 (2017).(共同通讯作者)

43. X.G. Zheng, H.L. Wang, G.Q. Ding, G.L. Cui, L. Chen, P.H Zhang, Q. Gong, S.M. Wang, Facile synthesis of highly graphitized nitrogen-doped carbon dots and carbon sheets with solid-state white-light emission, Materials Letters, 19558–61 (2017).

44. Hailong Wang,Wenjuan Wang, Qian Gong, Shumin Wang, External electric field effect on exciton binding energy in InGaAsP/InP cylindrical quantum wires, Physica B, 503, 117–120 (2016). (通讯作者)

45. Zheng Li, Hailong Wang, Li Chen, Sha ChenQiang Gong, The electron-longitudinal optical phonon scattering rate in GaInAsP/InP stepped quantum wellInternational Journal of Modern Physics B30(26), 1650196 (2016). (通讯作者)

46. Xiaoyan Wu, Xiren Chen, Wenwu Pan, Peng Wang, Liyao Zhang, Yaoyao Li, Hailong Wang, Kai Wang, Jun Shao Shumin Wang Anomalous photoluminescence in InP1−xBixScientific Reports | 6:27867 | DOI: 10.1038/srep27867 (2016)

47. Li, SG (Li, S. G.), Gong, Q (Gong, Q.), Wang, XZ (Wang, X. Z.), Cao, CF (Cao, C. F.), Zhou, ZW (Zhou, Z. W.), Wang, HL (Wang, H. L. ), Cavity length and stripe width dependent lasing characteristics of InAs/InP(100) quantum dot lasers, Infrared Physics & Technology, 75, 51-55(2016).

48. Jinyi Yan, Qian Gong, Jinjin Gao, Chunfang Cao, Yang Wang, Haixin Xu, Wangpeng Zhao, and Hailong Wang, Analysis of mode-hop free tuning of folded cavity grating feedback lasers, Applied Optics, 54(28), 8339-8343 (2015).

49. Yan JY, Gong Q, Kang CZ, Xu HX, Cao CF, Li YY, Wang SM, Wang HL, Wavelength tuning of InAs quantum dot laser by micromirror device, Journal of Crystal Growth, 425, 373-375 (2015).

50. Y. Wang, Q. Gong, C. F. Cao, R. H. Cheng, J. Y. Yan, L. Yue, Y.Y. Li, A. Z. Li, S. M. Wang, J. Cui, H. X. Xu, H. L. Wang, S.G. Li, A Novel Method to Measure the Internal Quantum Efficiency and Optical Loss of Laser Diodes, IEEE Photonics Technology Letters, 27(11), 1169-1172(2015).

51. Xuegang Zheng, Hailong Wang, Qian Gong, Lichun Zhang, Guangliang Cui, Qingshan Li, Li Chen, Fuquan Wu, Shumin Wang, Highly Luminescent Carbon Nanoparticles as Yellow Emission Conversion PhosphorsMaterials Letters, 143, 290-293 (2015). (通讯作者)

52. X. G. Zheng, H. L. Wang, Q. Gong, G. L. Cui, L. Chen, Guqiao Ding, A facile and transfer-free path for template-less synthesis of carbon nanosheets, Materials Letters, 143, 233-236 (2015). (通讯作者)

53. LI Shi-Guo, GONG Qian, CAO Chun-Fang, WANG Xin-Zhong, YAN Jin-Yi, WANG Hai-Long, Junction-Temperature Measurement in InAs/InP(100) Quantum-Dot Lasers, Chinese Physics Letters, 32(1), 014208(2015).

54. X.G. Zheng, H.L. Wang, Q. Gong, L. Chen, K. Wang, S.M. Wang, Template-less Synthesis of Hollow Carbon Nanospheres for White Light-Emitting Diodes, Materials Letters, 126, 71-74 (2014). (通讯作者)

55. S. G. Li, Q. Gong, C. F. Cao, X. Z. Wang, J. Y. Yan, Y. Wang, H. L. Wang, A review of external cavity-coupled quantum dot lasers, Optical and Quantum Electronics, 46, 623 (2014).

56. 王文娟, 王海龙, 龚谦, 宋志棠, 汪辉, 封松林,外电场对InGaAsP/InP 量子阱内激子结合能的影响, 物理学报62(23),237104(2013)。(通讯作者)

57. 陈茜, 王海龙, 汪辉, 龚谦, 宋志棠, Ga1-xInxNyAs1-y/GaAs量子阱中电子-LO声子的散射率, 物理学报62(20),226301(2013)。(通讯作者)

58. S.G. Li, Q. Gong, C.F. Cao, X.Z. Wang, L. Yue, Y. Wang, H.L. Wang, Multi-spectral lasing characteristics of InAs/GaAs quantum dot laser, Superlattices and Microstructures, 59, 97-105 (2013)

59. S.G. Li, Q. Gong, C.F. Cao, X.Z. Wang, J.Y. Yan, Y. Wang, H.L. Wang, The developments of InP-based quantum dot lasers, Infrared Physics and Technology, 60, 216-224(2013).

60. S. G. Li, Q. Gong, C. F. Cao, X. Z. Wang, and H. L. Wang, Measurements of I-V characteristics in InAs/InP quantum dot laser diode, Journal of Modern Optics, 59(19), 1695-1699 (2012).

61. S. G. Li, Q. Gong, X. Z. Wang, L. Yue, Q. B. Liu, H. L. Wang and C. H. Ma, Morphology and shape dependent characteristics of InAs/InP(100) quantum dot laser grown by gas source molecular beam epitaxy, Physica E, 44(10), 1983-1987(2012).

62. S.G. Li, Q. Gong, C.F. Cao, X.Z. Wang, P. Chen, L. Yue, Q.B. Liu, H.L. Wang, C.H. Ma, Temperature dependent lasing characteristics of InAs/InP(100) quantum dot laser, Materials Science in Semiconductor Processing, 15(1), 86-90 (2012).

63. Chuanhe Ma, Hailong Wang, Yan Zhou, Qian Gong, Peng Chen, Chunfang Cao, Song-Lin Feng, Shiguo Li, The I-V characteristics of InAs/GaAs QD laser, Physica B, 406(19),3636-3639(2011). (通讯作者)

64. Zhou YanWang Hai-long, Ma Chuan-he, Gong Qian, Feng Song-Lin, Fabrication of strain-driven self-assembly micromirror on a GaAs substrate, Chinese Physics Letters, 28(7):078102 (2011). (通讯作者)

65. Q. Gong, P. Chen, S.G. Li, Y.F. Lao, C.F. Cao, C.F. Xu, Y.G. Zhang, S.L. Feng, C.H. Ma, H.L. Wang, Quantum dot lasers grown by gas source molecular-beam epitaxy, Journal of Crystal Growth, 323(1),450-453(2011).

66. P. Chen, Q. Gong, C. F. Cao, S. G. Li, Y. Wang, Q. B. Liu, L. Yue, Y. G. Zhang, and S. L. FengC. H. Ma, H. L. Wang, High performance external cavity InAs/InP quantum dot lasers, Applied Physics Letters, 98(12), 121102 (2011).

67. Hailong Wang , Liming Jiang, Qian GongSonglin Feng, External electric field effect on the hydrogenic donor impurity in zinc-blende InGaN/GaN cylindrical quantum well wire, Physica B405(18), 3818-3821 (2010).

68. S.G. Li, Q. Gong, Y.F. Lao, Y.G. Zhang, S.L. Feng and H.L. Wang, InAs/InP(100) quantum dot laser with high wavelength stability, Electronics Letters46 (2), 158-159 (2010).

69. S. G. Li, Q. Gong, Y. F. Lao, H. D. Yang, S. Gao, P. Chen, Y. G. Zhang, S. L. Feng, and H.L. Wang, Two-color quantum dot laser with tunable wavelength gap, Applied Physics Letters 95, 251111 (2009).

70. Liming JIANG, Hailong WANG , Huiting WU, Qian GONGSonglin FENGElectronic states of a shallow hydrogenic donor impurity in different shaped semiconductor quantum wells, Communications in Theoretical Physics, 51(6), 1135-1138 (2009).(通讯作者)

71. Liming JIANG, Hailong WANG , Huiting WU, Qian GONGSonglin FENG External electric field effect on the hydrogenic donor impurity in zinc-blende GaN/AlGaN cylindrical quantum dot Journal of Applied Physics 105, 053710 (2009) (通讯作者)

72. Huiting WU, Hailong WANG , Liming JIANG, Qian GONGSong-Lin FENG The electric field effect on binding energy of hydrogenic impurity in zinc-blende GaN/AlxGa1-xN spherical quantum dotPhysica B404(1), 122-126(2009). (通讯作者)

73. 吴慧婷,王海龙,姜黎明,有效质量差异和电场对GaN/AlxGa1-xN球形量子点电子结构的影响,物理学报58(1),465-470(2009). (通讯作者)

74. S.G. Li, Q. Gong, Y.F. Lao, K. He, J. Li, Y.G. Zhang, S.L. Feng, H.L. Wang, Room temperature continuous-wave operation of InAs/InP(100) quantum dot lasers grown by gas-source molecular-beam epitaxy, Applied Physics Letters 93, 111109 (2008).

75. JIANG Li-Ming, WANG Hai-Long ,WU Hui-Ting, GONG QianFENG Song-LinExternal electric field effect on the hydrogenic donor impurity in zinc-blende InGaN quantum dotChinese Physics Letters25(8), 3017-3020(2008). (通信作者)

76. Heng-Jing Tang and Fu-Quan Wu, Hai-Long Wang, Yu-Hua Wei, and Qing-Shan Li, Optical properties of Ag-Al2O3 nano-array composite structure, Optik , 119, 134-138 (2008).

77. H. J. Tang , F. Q. Wu, H. L. Wang, Y. H. Wei, and Q. S. Li, Microstructure and optical properties of Cu/Al2O3 nanoarray composite structure, Journal of Applied Physics 100, 064316 (2006)

78. Tadashi Saitoh, Masami Kumagai, Hailong Wang, Takehiko Tawara, Toshio Nishida, Tetsuya Akasaka, Naoki Kobayashi, Highly reflective distributed Bragg reflectors using a deeply etched semiconductor/air grating for InGaN/GaN laser diodes, Applied Physics Letters, 82(25), 4426-4428(2003).

79. Hailong Wang, Masami Kumagai, Takehiko Tawara, Toshio Nishida, Tetsuya Akasaka, Naoki Kobayashi, Tadashi Saitoh, Fabrication of an InGaN multiple-quantum-well laser diode featuring high reflectivity semiconductor/air distributed Bragg reflectors, Applied Physics Letters, 81(25), 4703( 2002).

80. Hailong Wang, Takehiko Tawara, Masami Kumagai, Tadashi Saitoh and Naoki Kobayashi, Novel Design to Fabricate High Reflectivity GaN-based Semiconductor/Air Distributed Bragg Reflector with the Tilt of Vertical Sidewall, Japanese Journal of Applied Physics,41 (6B), Pt.2, L682(2002).

81. Wang Hailong, Feng Songlin, Yang Fuhua, Sun Baoquan and Jiang Desheng, Excitation transfer in vertically self-organized pairs of unequal-sized InAs/GaAs quantum dots, Chinese Physics Letters, 17(8), 615-616 (2000).

82. Jiannong Wang, Baoquan Sun, Xiangrong Wang, Yuqi Wang, Weikun Ge, Desheng Jiang and Hailong wang, Static and dynamic electric field domain formation in a doped GaAs/AlAs superlattice, Physica E, 8(2), 141-145, 2000.

83. H. L. Wang, F. H. Yang and S. L. Feng, Photoluminescence in Si and Be directly doped self-organized InAs/GaAs quantum dots, Journal of Crystal Growth, 212, 35-38(2000).

84. H.L. Wang, F.H. Yang, S.L. Feng, H.J. Zhu, D. Ning, H. Wang and X. D. Wang, Experimental determination of local Strain effect on InAs/GaAs self-organized quantum dots, Physical Review B., 61(8), 5530-5534(2000).

85. H. L. Wang, D. Ning and S. L. Feng, Temperature dependence of the optical properties of InAs/GaAs self-organized quantum dots with bimodal size distribution, Journal of Crystal Growth, 209, 630-636(2000).

86. Haijun Zhu, Songlin Feng, Desheng Jiang, Yuanming Deng and Hailong Wang, Strain Effect on the InAs/GaAs Quantum Dots, Japanese Journal of Applied Physics, 38, Pt.1, 11, 6264-6265(1999).

87. J.N. Wang, B.Q. Sun, X.R. Wang and H.L. Wang, Negative differential resistance and the transition to current self-oscillation in GaAs/AlAs superlattices, Solid State Communications, 112(7), 371-374(1999).

88. Jiannong Wang, Baoquan Sun, Xiangrong Wang, Yuqi Wang, Weikun Ge and Hailong Wang, Dynamic dc voltage band observed within each current branch in the transition from static to dynamic electric field domain formation in a doped GaAs/AlAs superlattic, Applied, Physics Letter, 75(17), 2620-2622 (1999).

89. Baoquan Sun, Jiannong Wang, Weikun Ge, Yuqi Wang, Desheng Jiang, Haijun Zhu, Hailong Wang, Yuanming Deng and Songlin Feng, Current Self-oscillation Induced by Transverse Magnetic Field in a doped GaAs/AlAs Superlattice, Physical Review B, 60(12), 8866-8870(1999).

90. Wang Hailong, Feng Songlin, Zhou Jie and Yang Xizhen, Determination of Capture Barrier of Defects for GaAs Alloys and Transient Photo-resistivity Spectroscopy, ACTA Physica Sinica (Overseas edition), 5(1), 1-9 (1996).




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