更新时间:2024-09-20 23:07
黄永箴,男,博士,研究员,博士生导师。分别于1983年、1986年和1989年在北京大学物理系获得学士、硕士和博士学位,1989年进入中科院半导体研究所,2002年获得国家杰出青年科学基金。
现任集成光电子学国家重点联合实验室学术委员会主任,中科院半导体所学术委员会副主任,中科院半导体所光电子研发中心(集成光电子学国家重点联合实验半导体所实验区)主任。
1983年北京大学物理系获得学士。
1986年北京大学物理系获得硕士学位。
1989年北京大学物理系获得博士学位。
1989年进入中科院半导体研究所工作。
1994年作为访问学者在英国电信实验室从事长波长InGaAsP垂直腔面发射激光器的研制。
主要研究半导体微腔激光器、半导体光放大器、量子点半导体激光器和光放大器、微腔光学滤波器、以及微腔激光器与硅光波导的混合集成及其在光互连上的应用技术。
1、国家杰出青年科学基金:“微腔激光器的研制”(2003-2006)
2、“863”项目:“量子点光电子器件微观结构设计与性能预测研究”(2003-2005)
3、“973 ”课题:微纳结构新型光电子集成器件及应用研究 2006-2010
4、国家基金重点项目:微纳尺度微腔激光器及量子效应研究 2009.1-2012.12
作为主要骨干参加了“863”项目垂直腔面发射激光器和InGaAs垂直腔面发射激光器的研制,在国内首次研制出GaAs垂直腔面发射激光器和选择氧化垂直腔面发射激光器。1994年在英国电信实验室做访问学者,研制了1550nm InGaAsP垂直腔面发射激光器。获得2002年国家杰出青年科学基金,重点研究光学微腔的模式特性并研制微腔激光器。十年来系统研究了适于光子集成的定向输出微腔半导体激光器,在国际上率先研究得出正三角形和正方形光学微腔的模式解析解,并研制出室温连续工作的正三角形和正方形光学微腔半导体激光器,以及带输出波导股份的圆形微腔半导体激光器。获得2008 年中科院半导体研究所优秀科研成果奖,正方形光学微腔半导体激光器和微腔双稳态半导体激光器分别入选《激光与光电子学进展》杂志评选的2008和2009年度中国光学重要成果。
获得五项中国发明专利和一项美国发明专利,发表SCI论文九十多篇。
1. 黄永箴,单模垂直腔面发射半导体激光器,专利批准号:ZL98103136
2.黄永箴,具有等边三角形的微光学谐振腔的光电器件,专利批准号:ZL00105875.4
3.黄永箴,面发射等边三角形谐振腔半导体激光器,专利批准号:ZL00123775.6
4.yongzhenhuang, Laser havingequilateraltriangular optical resonators of orient output, Patent No. US 6763052 B2
5. 国伟华,黄永箴,一种单模微腔半导体激光器,申请号:03106829.4
6.黄永箴,一种增益钳制的半导体光放大器,申请号:200410069191.3
7.赵洪泉,于丽娟,黄永箴,一种低温键合技术,申请号:200510086420.7
8. 赵洪泉,于丽娟,黄永箴,晶片直接键合过程中实验参数的优化,申请号:200510130770.9
9. 罗贤树,黄永箴,陈沁,制作半导体微盘激光器的方法,申请号:200610011924.7
10. 陈沁,杨跃德,黄永箴,消除分布模式耦合的环形微腔波导股份滤波器的制作方法,申请号:200610011981.5
11. 杨跃德,黄永箴,罗贤树,陈沁,基于TM模激射的圆柱形结构的微盘激光器,申请号:200610114191.X
12.黄永箴,杨跃德,王世江,正多边形微腔双稳半导体激光器,申请号:200810224106.4
13. 李敬,杨跃德,黄永箴,一种中远红外量子级联正多边形微腔激光器及期制作工艺,申请号:200910081990.5
14. 王世江,黄永箴,杨跃德,侧向耦合输出组合圆盘微腔激光器,申请号:200910242753.2
15. 王世江,黄永箴,杨跃德,一种定向输出的圆盘微腔激光器,申请号:200910091631.8
16. 王世江,黄永箴,杨跃德,一种高效的双谐振腔与波导股份耦合结构,申请号:201010175443.6
17. 车凯军,黄永箴,微纳型半导体边发射FP激光器及其制作方法,申请号:201010101999.0
在国内外学术刊物及国际学术会议上发表论文一百多篇。
发表英文论文: (2000-2010)
1. Wei-Hua Guo, Yong-Zhen Huang, and Qi-Ming Wang, “resonant frequencies and quality factors for optical equlilateral triangle resonators calculated by FDTD technique and the Padé approximation,” IEEE Photon. Technol. Lett. 12(7), pp.813-815, Jul. 2000.
2. Wei-Hua Guo, Wei-Jun Li, andYong-Zhen Huang, “Computation of resonant frequencies and quality factors of cavities by FDTD technique and Padé approximation,” IEEE, Microwave Wireless Compon. Lett. 11(5), pp.223-225, May 2001.
3.Yong-Zhen Huang, Wei-Hua Guo, and Qi-Ming Wang, “Analysis and numerical simulation of eigenmode characterisctics for semiconductor lasers with an equilateral triangle micro-resonator,” IEEE J.quantum Electron. 37(1), pp100-107, Jan. 2001.
4.Yong-Zhen Huang, Wei-Hua Guo, Li-Juan Yu, and Hong-Bin Lei, “Analysis of semiconductor microlasers with an equilateral triangle resonator by rate equations,” IEEE J. Quantum Electron. 37(10), pp.1259-1264, Oct. 2001
5.Yong-Zhen Huang, Wei-Hua Guo, Li-Juan Yu, “Size limit and spontaneous emission factor for equilateral triangle semiconductor microlasers,” IEE Proc. Optoelectron. 148(5/6), pp229-232, Oct./Dec. 2001.
6.Yong-Zhen Huang, “Comparison of modal gain and material gain for strong guiding slab waveguide,” IEE.-Optoelectron. 148(3), pp.131-133, Jun. 2001.
7.Yong-Zhen Huang, Wei-Hua Guo, and Qi-Ming Wang, “Influence of output waveguide on mode quality factor in semiconductor microlasers with an equilateral triangle resonator,” App Phys. Lett. 77(22), pp.3511-3513, Nov. 2002.
8.Huang Yong-Zhen, Guo Wei-Hua, and Yu Li-Juan, “Analysis of mode quality factors for equilateral triangle semiconductor microlasers with rough sidewalls,” Chin. Phys. Lett. 19(5), pp.674-676, 2002.
9. Qiaoyin Lu, Xiaohong Chen, Weihua Guo, Lijuan Yu,Yongzhen Huang, Jian Wang, and Yi Luo, “Experimental study of mode characteristics for equilateral triangle semiconductor microcavities,” Chin. Opt. Lett. 1(8), pp472-474, 奥地利AUG5.56毫米轻机枪 2003.
10. Wei-Hua Guo,Yong-Zhen Huang, Qiao-Yin Lu, and Li-Juan Yu, “Whispering-gallery-like modes in square resonators,” IEEE J. Quantum Electron. 39(9), pp.1106-1110, Sep. 2003.
11. Wei-Hua Guo,Yong-Zhen Huang, Qiao-Yin Lu, and Li-Juan Yu, “Modes in square resonators,” IEEE J. Quantum Electron. 39(12), pp1563-1566, Dec. 2003.
12. Wei-Hua Guo,Yong-Zhen Huang, Chun-Lin Han, and Li-Juan Yu, “Measurement of gain spectrum for Fabry–Pérot semiconductor lasers by the Fourier transform method with a deconvolution process,” IEEE J. Quantum Electron. 39(6), pp.716-721, Jun. 2003.
13. Wei-Hua Guo, Qiao-Yin Lu,Yong-Zhen Huang, and Li-Juan Yu, “Measurement of gain spectrum for semiconductor lasers utilizing integrations of product of emission spectrum and a phase 函数 over one mode interval,” IEEE Photon. Technol. Lett. 15(11), pp.1510-1512, Nov. 2003.
14. Cao-Yuan Jin, Wei-Hua Guo,Yong-Zhen Huang and Li-Juan Yu, “Photon iterative numerical technique for steady-state simulation of gain-clamped semiconductor optical amplifiers,” IEE Proc.-Optoelectron. 150(6), pp503-507, Dec. 2003.
15. Chao-Yuan Jin,Yong-Zhen Huang, Li-Juan Yu, and Shen-Ling Deng, “Detailed model and investigation of gain 色彩饱和度 and carrier spatial hole burning for a semiconductor optical amplifier with gain clamping by a vertical laser field,” IEEE J. Quantum Electron. 40(2), pp123-129, Feb. 2004.
16. Wei-Hua Guo, Qiao-Yin Lu,Yong-Zhen Huang, and Li-Juan Yu, “Fourier series expansion method for gain measurement fromAMPLIFIEDspontaneous emission spectra of Fabry–Pérot semiconductor lasers,” IEEE J. Quantum Electron. 40(2), pp.123-129, Feb. 2004.
17. Wei-Hua Guo,Yong-Zhen Huang, Qiao-Yin Lu, and Li-Juan Yu, “Mode quality factor based on far-field emission for square resonators,” IEEE Photon. Techn奥林匹克里昂女子足球队 Lett. 16(2), pp479-481, Feb. 2004.
18. Guo Wei-Hua,Huang Yong-Zhen, Lu Qiao-Yin, Yu Li-Juan, “Comparison of free spectral range and quality factor for two-dimensional square and circular microcavities,” Chin. Phys. Lett. 21(1), pp79-80, 2004.
19. Qiao-Yin Lu, Xiao-Hong Chen, Wei-Hua Guo, Li-Juan Yu,Yong-Zhen Huang, Jian Wang, and Yi Luo, “Mode characteristics of semiconductor equilateral triangle microcavities with side length of 5-20 μm”, IEEE Photon. Technol. Lett. 16(2), pp359-361, Feb. 2004.
20.Yong-Zhen Huang, Qiao-Yin Lu, Wei-Hua Guo, and Li-Juan Yu, “Analysis of mode characteristics for equilateral triangle semiconductor microlasers with imperfect boundaries,” IEE Proc. Optoelectron. 151(4), pp202-204, Aug. 2004.
21. Qin Chen,Yong-Zhen Huang, Wei-Hua Guo, and Li-Juan Yu, “Analysis of modes in afreestandingmicrosquare resonator by 3-D finite-difference 时间domain simulation,” IEEE J. Quantum Electron. 41(7), pp.997-1001, Jul. 2005.
22.Yong-Zhen Huang, Qin Chen, Wei-Hua Guo, and Li-Juan Yu, “Experimental observation of resonant modes in GaINASP microsquare resonators,” IEEE Photon. Technol. Lett. 17(12), pp2589-2591, Dec. 2005.
23. Chao-Yuan Jin,Yong-Zhen Huang, Li-Juan Yu, and Sheng-Ling Deng, “Numerical and theoretical analysis of theCROSSTALKin linear optical amplifiers,” IEEE J. Quantum Electron. 41(5), pp636-641, Feb. 2005.
24. Deng Sheng-Ling,Huang Yong-Zhen, Yu Li-Juan, “Intraband relaxation and its influences on quantum dot lasers,” Chin, Phys. Lett. 22(8), pp.2077-2080, 2005.
25. Qin Chen,Yong-Zhen Huang, Wei-Hua Guo, and Li-Juan Yu, “Calculation of propagation loss in photonic crystal waveguides by FDTD technique and Padé approximation,” Opt. Comm. 248, pp.309-315, 2005.
26. Qin Chen,Yong-Zhen Huang, and Li-Juan Yu, “Analysis of mode characteristics fordeformedsquare resonators by FDTD technique,” IEEE J. Quantum Electron. 42(1), pp59-63, Jan. 2006.
27. CHEN Qin,HUANG Yong-Zhen, “WG电子竞技俱乐部like modes selectivity in a square cavity with posts,” Chin. Phys. Lett. 23(6), pp.1470-1472, 2006.
28. Qin Chen andYong-Zhen Huang, “Investigation of mode characteristics for a square cavity with apedestalby a three-dimensional finite-difference time-domain technique,” J. Opt. Soc. Am. B 23(7), pp.1287-1291, Jul. 2006.
29.Yong-Zhen Huang, Qin Chen, Wei-Hua Guo, Qiao-Yin Lu and Li-Juan Yu, “Mode characteristics for equilateral triangle optical resonators,” IEEE J. Sel. Top. Quantum Electron. 12(1), pp59-65, Jan/Feb. 2006.
30. Wei Zhao,Yong-Zhen Huang, “Analysis of directional emission in square resonator lasers with an output waveguide,” Chin. Opt. Let. 23(6), pp.1470-1472, 2006.
31. Xian-Shu Luo,Yong-Zhen Huang, and Qin Chen, “Mode-coupling analysis of three-dimensional microdisk resonators by the finite-difference 时间domain technique,” Opt. Lett. 31(8), pp1073-1075, Apr. 2006.
32. Xian-Shu Luo,Yong-Zhen Huang, Wei-Hua Guo, Qin Chen, Miao-Qing Wang, and Li-Juan Yu, “Investigation of mode characteristics for microdisk resonators by S-matrix and three-dimensional finite-difference 时间domain technique,” J. Opt. Soc. Am. B, 23(6), pp.10681073, Jun. 2006.
33. Miao-Qing Wang,Yong-Zhen Huang, Qin Chen, and Zhi-Ping Cai, “Analysis of mode quality factors and mode reflectivities for nanowire cavity by FDTD technique,” IEEE J. Quantum Electron. 42(2), pp.146-151, Mar. 2006.
34. Qin Chen, Yue-De Yang, andYong-Zhen Huang, “Distributed mode coupling in microring channel drop filters,” App. Phys. Lett. 89(6), 061118, Aug. 2006.
35. Hongquan Zhao, Lijuan Yu,Yongzhen Huang, “Investigation of a chemically treated InP(1 0 0) surface duringhydrophilicwafer bonding process,” Materials sciences \u0026 Engineering B 128, pp93-97, 2006.
36. Hong-Quan Zhao, Li-Juan Yu,Yong-Zhen Huang, Yu-Tian Wang, “Strain analysis of InP/InGaAsP wafer bonded on Si by X-ray double crystalline diffraction,” Materials Sciences\u0026Engineering B 133, pp.117-123, Jun. 2006.
37. Hong-Quan Zhao, Li-Juan Yu, andYong-Zhen Huang, “Thermal stress analysis for GaInAsP multiple quantum well wafer chemically bonded to Si(100),” J. APPL Phys. 100(2), 023513, Jul. 2006.
38. Qin Chen, Yue-De Yang, andYong-Zhen Huang, “Finite-difference 时间domain analysis of deformed square cavity filters with a traveling-wave-like filtering response by mode coupling,” Opt. Lett. 32(8), pp.967-969, Apr. 2007.
39. Qin Chen, Yue-De Yang, andYong-Zhen Huang, “Prediction and suppression of strong dispersive coupling in microracetrack channel drop filters,” Opt. Lett. 32(13), pp1851-1853, Jul. 2007.
40. Yue-De Yang,Yong-Zhen Huang, and Qin Chen, “High-Q TM whispering-gallery modes in three-dimensional microcylinders,” Phys. REV A 75(1), 013817, Jan. 2007.
41. Jun-Jie Li, Jia-Xian Wang, andYong-Zhen Huang, “Mode coupling between first- and second-order whispering-gallery modes in coupled microdisks,” Opt. Lett. 32(7), pp.1563-1565, Jun. 2007.
42. Yue-De Yang,Yong-Zhen Huang, and Qin Chen, “Comparison of Q-factors between TE and TM modes in 3-D microsquares by FDTD simulation,” IEEE Photon. Technol. Lett. 19(22), pp1831-1833, Nov. 2007.
43.Yong-Zhen Huang, Yong-Hong Hu, Qin Chen, Shi-Jiang Wang, Yun Du, and Zhong-Chao Fan, “Room-温度 continuous-wave electrically injected InP–GaInAsP equilateral-triangle-resonator lasers,” IEEE Photon. Technol. Lett. 19(13), pp963-965, Jul. 2007.
44. Qin Chen, Yong-Hong Hu,Yong-Zhen Huang, Yun Du, and Zhong-Chao Fan, “Equilateral-triangle-resonator injection lasers with directional emission,” IEEE J. Quantum Electron. 43(6), pp440-444, Jun. 2007.
45. Yue-De Yang andYong-Zhen Huang, “Mode analysis and Qfactor enhancement due to mode coupling in rectangular resonators,” IEEE J. Quantum Electron. 43(6), pp.497-502, Jun. 2007.
46. Yue-De Yang andYong-Zhen Huang, “Symmetry analysis and numerical simulation of mode characteristics for equilateral-polygonal optical microresonators,” Phys. Rev. A 76, 023822, 奥地利AUG5.56毫米轻机枪 2007.
47. Xiao Jin-Long,Huang Yong-Zhen, Du Yun, Zhao Huan, Ni Hai-Qiao, Niu Zhi-Chuan, “Gain measurement andanomalousdecrease of peak gain at long wavelength for InAs/GaAs quantum-dot lasers,” Chin, Phys. Lett. 24(10), pp2984-2986, 2007.
48.Yong-Zhen Huang, Kai-Jun Che, Yue-De Yang, Shi-Jiang Wang, Yun Du, and Zhong-Chao Fan, “Directional emission InP/GaInAsP square-resonator microlasers,” Opt. Lett. 33(19), pp.2170-2172, Oct. 2008.
49.Yong-Zhen Huang, and Yue-De Yang, “Mode coupling and vertical radiation loss for whispering-gallery modes in 3-D microcavities,” J. Lightwave. Technol. 26(11), pp. 1411-1416, Jun.2008.
50. JinLong Xiao andYong-Zhen Huang, “Numerical analysis of gain 色彩饱和度, noise figure, and carrier distribution for quantum-dot semiconductor-optical amplifiers,” IEEE J. Quantum Electron. 44(5), pp.448-455, May. 2008.
51. Yue-De Yang, Shi-Jiang Wang, andYong-Zhen Huang, “Investigation of mode coupling in a microdisk resonator for realizing directional emission,” Opt. Express 17(25), pp23010–23015 Dec. 2009.
52. Yue-De Yang,Yong-Zhen Huang, and Shi-Jiang Wang, “Mode analysis for equilateral-triangle-resonator microlasers with metal confinement layers,” IEEE J. Quantum Electron. 45(12), pp1529-1536, Dec. 2009.
53.Yong-Zhen Huang, Shi-Jiang Wang Yue-De Yang, Jin-Long Xiao, Yong-Hong Hu, and Yun Du, “Optical bistability in InP/GaInAsP equilateral-triangle-resonator microlasers,” Opt. Lett. 34(12), pp1852-1854, Jun. 2009.
54. Jing Li, Yue-De Yang, andYong-Zhen Huang, “设计 of quantum cascade microcavity lasers based on Q factor versus etching depth,” J. Opt. Soc. Am. B 26(8), pp.1484-1491, Aug. 2009.
55. Shi-Jiang Wang, Yue-De Yang, andYong-Zhen Huang, “Analysis of mode characteristics for equilateral-polygonal resonators with a center hole,” J. Opt. Soc. Am. B 26(12), pp2449-2454, Dec. 2009.
56.Huang YongZhen, Yang YueDe, Wang ShiJiang, Xiao JinLong, Che KaiJun, and Du Yun, “Whispering-gallery microcavity semiconductor lasers suitable for photonic integrated circuits and optical interconnects,” Sci China Ser E-Tech 52(12), pp3447-3453, Jul.2009.
57. Yue-De Yang,Yong-Zhen Huang, Kai-Jun Che, Shi-Jiang Wang, Yong-Hong Hu, and Yun Du, “Equilateral-triangle and square resonator semiconductor microlasers,” IEEE J. Sel. Top. Quantum Electron. 15(3), pp879-884, May/Jun. 2009.
58. Jin-Long Xiao, Yue-De Yang, andYong-Zhen Huang, “Investigation of gain recovery for InAs/GaAs quantum dot semiconductor optical amplifiers by rate equation simulation,” Opt Quant Electron. 41(8), pp 613-626, 2009
59.Yong-Zhen Huang, and Yue-De Yang, “Calculation of light delay for coupled microrings by FDTD technique and Padé approximation,” J. Opt. Soc. Am. A 26(11), pp.2419-2426, Nov. 2009.
60. Wang Shi-Jiang,Huang Yong-Zhen, Yang Yue-De, Hu Yong-Hong, Xiao Jin-Long, Du Yun, “Output characteristics of an InP/InGaAsP triangle microcavity laser,” Chin. Phys. Lett. 27(1), 014213, 2010.
61. Kai-Jun Che, Yue-De Yang, andYong-Zhen Huang, “Multimode resonances in metallically confined square-resonator Microlasers,” Appl. Phys. Lett. 96(5), 051104, Jan. 2010.
62. Kai-Jun Che, Yue-De Yang, andYong-Zhen Huang, “Mode characteristics for square resonators with a metal confinement layer,” IEEE J. Quantum Electron. 46(3), pp.414-420, Mar. 2010.
63. Jing Li, Yue-De Yang, andYong-Zhen Huang, “Mode simulation for midinfrared microsquare resonators with sloped sidewalls and confined metals,” IEEE Photon. Technol. Lett. 22(7), pp.459-461, Apr. 2010.
64. Kai-Jun. Che, Jian-越南盾 Lin,Yong-Zhen Huang, Yue-De Yang and Yun Du, “Two-port InGaAsP/InP square resonator microlasers,” Electron. Lett. 46(8), pp.585-586, Apr. 2010.
65. Kai-Jun Che andYong-Zhen Huang, “Mode characteristics of metallically coated square microcavity connected with an output waveguide,” J. Appl. Phys. 107, 113103, Jun. 2010.
66. Kai-Jun Che, Jian-Dong Lin,Yong-Zhen Huang, Yue-De Yang, Jin-Long Xiao, and Yun Du, “InGaAsP/InP square microlasers with a vertex output waveguide,” IEEE Photon. Technol. Lett., 22(18), pp.1370-1372, 2010.
67. Shi-Jiang Wang,Yong-Zhen Huang, Yue-De Yang, Jian-Dong Lin, Kai-Jun Che, Jin-Long Xiao, and Yun Du, “Long rectangle resonator 1550 nm AlGaInAs/InP lasers,” J. Opt. Soc. Am. B, 27(4), pp719-724, Apr. 2010.
68. Yuede Yang, Shijiang Wang, andYongzhen Huang, “Investigation of mode radiation loss for microdisk resonators with pedestals by FDTD technique,” Chin. Opt. Let. 8(5), pp.502-504, May. 2010.
69. Shi-Jiang Wang, Yue-De Yang, andYong-Zhen Huang, “Analysis of coupled microcircular resonators coupled to a bus waveguide with high output efficiency,” Opt. Lett. 35(12), pp1953-1955, Jun. 2010.
70. Yue-De Yang,Yong-Zhen Huang, Wei-Hua Guo, Qiao-yin Lu, and John F. Donegan, “Enhancement of quality factor for TE whispering-gallery modes in microcylinder resonators,” Opt. Express 18(12), pp.13057–13062, Jun. 2010.
71. Shi-Jiang Wang, Jian-Dong Lin,Yong-Zhen Huang, Yue-De Yang, Kai-Jun Che, Jin-Long Xiao, Yun Du, and Zhong-Chao Fan, “AlGaInAs/InP microcylinder lasers connected with an output waveguide,” IEEE Photon. Technol. Lett., 22(18), pp.1349-1351, 2010.
72.Yong-Zhen Huang, Shi-JiangWang, Yue-De Yang, Jian-越南盾 Lin, Kai-Jun Che, Jin-Long Xiao and Yun Du, “Investigation on multipleport microcylinder lasers based on coupled modes,” Semicond. Sci. Technol. 25(10), 105005, 2010.
1、2002年获得国家杰出青年科学基金。
2、2005年和2007年获得中科院优秀研究生指导教师奖。
3、2006年获得中国科学院大学优秀教师。
4、2008年获得中科院宝洁优秀研究生导师奖。
5、2008年获得中科院半导体所优秀科研成果奖。
6、2009年获得国防科技进步二等奖。
7、培养的博士获得2005和2007年中科院优秀博士论文、以及2008年全国百篇优秀博士论文。