教师名录
宋清海
通讯地址:深圳市南山区深圳大学城哈工大校区G栋201
电子邮件:qinghai.song@hit.edu.cn
联系电话:

研究方向

研究方向为各种有源和无源的微纳米光子学器件的设计、制备、表征,并利用相关的器件研究其内在物理过程并探索其光电子应用。涉及研究内容包括微纳米体系的数值建模、光刻或电子束曝光以及反应离子刻蚀等的微纳米制备技术、以及光学和电学表征技术。

Position Opening:
本小组欢迎对光电子、物理、光学、微纳米光子学技术等各个领域感兴趣的同学加盟。目前在深圳每年招收硕士研究生5名,博士研究生2名,博士后1名;如有特殊需要,也可通过本部招生。有兴趣的同学可以email联系宋清海,qinghai.song@hit.edu.cn

教育经历

1998-2002  复旦大学,物理系,理学学士
2002-2007  复旦大学,光科学与工程系,光学博士
2005年  耶鲁大学,应用物理系,访问

研究与工作经历

2007-2008  美国西北大学,物理系,研究助理
2008-2009  美国耶鲁大学,应用物理系,研究助理
2009-2010  美国普渡大学,生物医学工程系,研究助理
2011年至今  哈尔滨工业大学,航天学院,光电子技术研究所,教授
2012年至今  哈尔滨工业大学,深圳研究生院,电子与信息工程系,教授,博士生导师

专业资质与学术兼职

2012年  教授,博士生导师

科研项目

2016-2019  深圳市学科布局项目,300万
2011-2014  哈尔滨工业大学配套经费,300万
2011-2013  集成光电子国家重点实验室开放课题,7万
2013-2015  自然科学基金青年基金,30万
2012-2015  哈尔滨工业大学基础研究培育项目,30万

科研成果及奖励

2011年  黑龙江省高校科技创新一等奖

发明专利

1. TiO2的可见光波段变换光学器件单元及光学器件,哈尔滨工业大学深圳研究生院,发明专利,CN 201610628539.0,2016年8月3日,肖淑敏,朱茂霞,张海涛,李建凯,宋清海。
2.一种离子注入技术控制合成后钙钛矿光学特性的方法,哈尔滨工业大学深圳研究生院,发明专利,CN 201610659049.7,2016年8月10日,宋清海,李建凯,张楠,张海涛,肖淑敏。
3. 一种利用二维材料抑制钙钛矿俄歇复合的方法,一种利用二维材料抑制钙钛矿俄歇复合的方法,哈尔滨工业大学深圳研究生院,发明专利,CN 201610536736.X,2016年7月8日,肖淑敏,张晨,朱茂霞,李建凯,宋清海。
4. 基于介质材料的平面透镜单元、平面透镜及制备方法,哈尔滨工业大学深圳研究生院,发明专利,CN 201510164384 ,2015年4月8日,肖淑敏, 钟建文, 宋清海
5. 可调谐的纳米天线及其制备方法,哈尔滨工业大学深圳研究生院,发明专利,CN 201410553995,2015年1月28日,肖淑敏, 刘政显, 易宁波, 宋清海。
6. 一种宽频吸波器的结构与制备方法,哈尔滨工业大学深圳研究生院,发明专利,CN 201510163603,2015年4月8日,肖淑敏, 刘佳, 宋清海。
7. 基于硅的中红外区磁谐振超材料结构及其制备方法,哈尔滨工业大学深圳研究生院,发明专利 CN 201410318204,2014年7月4日,肖淑敏, 孙四五, 宋清海。
8. 高转换效率的光学倍频或三倍频薄膜,哈尔滨工业大学深圳研究生院,发明专利,CN 201410072352,2014年2月28日,肖淑敏, 孙上, 宋清海。
9. 高效薄膜太阳能电池,哈尔滨工业大学深圳研究生院,发明专利,CN 201310598206,2013年11月22日,肖淑敏, 宋清海, 孙上。
10. 一种低损耗平面超透镜,哈尔滨工业大学深圳研究生院,发明专利,CN 201320725458,2013年11月15日,肖淑敏, 宋清海, 孙上。
11. 高效薄膜太阳能电池,哈尔滨工业大学深圳研究生院,发明专利,CN 201320747366,2013年11月22日,肖淑敏, 宋清海, 孙上。
12.一种利用超材料的新型薄膜太阳能电池,哈尔滨工业大学深圳研究生院,发明专利,CN 201320747041,2013年11月22日,肖淑敏, 宋清海, 孙上。
13. 一种低损耗平面超透镜及其制作方法,哈尔滨工业大学深圳研究生院,发明专利,CN 201310574700,2013年11月15日,肖淑敏, 宋清海, 孙上。
14. 一种利用超材料的新型薄膜太阳能电池,哈尔滨工业大学深圳研究生院,发明专利,CN 201310598305,2013年11月22日,肖淑敏, 宋清海, 孙上。

论文及著作

Book Chapter:
1. J.-B. Shim, A. Eberspaecher, J. Wiersig, J. Unterhinninghofen, Q. H. Song, L. Ge, H. Cao and A. D. Stone, Deformed wavelength-scale microdisk lasers with quantum dot emitters, Chap. 7 in "Quantum optics with semiconductor nanostructures", ed. F. Jahnke, Woodhead Publishing Limited, series in Electronic and Optical Materials: No. 28, pp. 2250-252 (2012).

2. Jan Wiersig, Julia Unterhinninghofen, Qinghai Song, Hui Cao, Martina Hentshel, Susumu Shinohara, Review on unidirectional light emission from ultralow-loss modes in deformed microdisks, Chapter 4 in ," Trends in Nano- and Micro-Cavities," ed. O' Dae Kwon, Byoungho Lee, Kyungwon An, Bentham Science Publisher Ltd., pp. 109-152 (2010).

Peer-reviewed SCI Journal papers within 3 years:

After 2014
1、Whispering-gallery-mode based CH 3 NH 3 PbBr 3 perovskite microrod lasers with high quality factors,Materials Chemistry Frontiers,K Wang, S Sun, C Zhang, W Sun, Z Gu, S Xiao*, Q Song*, In Press.
2、Improving the performances CH3NH3PbBr3 perovskite microrod laser through hybridization with few-layered graphene, Advanced Optical Materials, C Zhang, K Wang, N Yi, Y Gao, M Zhu, W Sun, S Liu, K Xu,Q Song*,S Xiao*, In Press.
3、Experimental demonstration of PT‐symmetric stripe lasers,Z Gu, N Zhang, Q Lyu, M Li, S Xiao*, Q Song*, Laser & Photonics Reviews 10 (4), 697-697(2016).
4、High-Density and Uniform Lead Halide Perovskite Nanolaser Array on Silicon,K Wang, Z Gu, S Liu, W Sun, N Zhang, S Xiao*, Q Song*,The Journal of Physical Chemistry Letters 7 (13), 2549-2555(2016).
5、Microwave sintering versus conventional sintering of NiCuZn ferrites. Part II: Microstructure and DC-bias superposition characteristics, C Ouyang, S Xiao, J Zhu, W Shi, Journal of Magnetism and Magnetic Materials 407, 182-187(2016).
6、Microwave sintering versus conventional sintering of NiCuZn ferrites. Part I: Densification evolution, J Zhu, C Ouyang, S Xiao, Y Gao,Journal of Magnetism and Magnetic Materials 407, 308-313(2016).
7、High efficiency light conversion between micro-and nano-photonic circuits, Z Gu, S Xiao*, Q Song*, Journal of Optics 18 (7), 075009(2016).
8、Unidirectional Lasing Emissions from CH3NH3PbBr3 Perovskite Microdisks, K Wang, W Sun, J Li, Z Gu, S Xiao*, Q Song*, ACS Photonics,(2016).
9、Random lasing actions in self-assembled perovskite nanoparticles, S Liu, W Sun, J Li, Z Gu, K Wang, S Xiao*, Q Song*, Optical Engineering 55 (5), 057102-057102(2016).
10、Broadband and Tunable-Focus Flat Lens with Dielectric Metasurface, J Zhong, N An, N Yi, M Zhu, Q Song, S Xiao*, Plasmonics 11 (2), 537-541(2016).
11、Triangular lasing modes in hexagonal perovskite microplates with balanced gain and loss, Z Gu, K Wang, W Sun, S Liu, N Zhang, S Xiao*, Q Song*, RSC Advances 6 (69), 64589-64594(2016).
12、Tailoring the lasing modes in CH 3 NH 3 PbBr 3 perovskite microplates via micro-manipulation, S Liu, W Sun, Z Gu, K Wang, N Zhang, S Xiao*, Q Song*, RSC Advances 6 (56), 50553-50558(2016).
13、A hybrid system with highly enhanced graphene SERS for rapid and tag-free tumor cells detection, N Yi, C Zhang, Q Song, S Xiao*, Scientific reports 6(2016).
14、Fabricating high refractive index titanium dioxide film using electron beam evaporation for all-dielectric metasurfaces, N An, K Wang, H Wei, Q Song, S Xiao*, MRS Communication(2016).
15、Three-dimensional light confinement in a PT-symmetric nanocavity, W Sun, Z Gu, S Xiao, Q Song*, RSC Advances 6 (7), 5792-5796(2016).
16、Large-Scale and Defect-Free Silicon Metamaterials with Magnetic Response, N Yi, S Sun, Y Gao, K Wang, Z Gu, S Sun, Q Song, S Xiao*, Scientific reports 6(2016).
17、Hybridizing CH 3 NH 3 PbBr 3 microwires and tapered fibers for efficient light collection, Z Gu, W Sun, K Wang, N Zhang, C Zhang, Q Lyu, J Li, S Xiao*, Q Song*, Journal of Materials Chemistry A 4 (21), 8015-8019(2016).
18、Tunable perovskite microdisk lasers, W Sun, K Wang, Z Gu, S Xiao*, Q Song*,Nanoscale 8 (16), 8717-8721(2016).
19、Two‐Photon Pumped CH3NH3PbBr3 Perovskite Microwire Lasers, Z Gu, K Wang, W Sun, J Li, S Liu, Q Song, S Xiao, Advanced Optical Materials, (2015).
20、Improvement of the chirality near avoided resonance crossing in optical microcavity, Song. QH, Gu. ZY, Zhang. N, Wang. KY, Yi. NB, Xiao. SM*, SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY, 58, 114210(2015).
21、Mid-infrared tunable magnetic response in graphene-based diabolo nanoantennas, Yi. NB, Liu. ZX, Sun. S, Song. QH, Xiao. SM*, CARBON, 94, 501-506(2015).
22、Wafer-scale metamaterials for polarization-insensitive and dual-band perfect absorption, Liu. J, Zhu. MX, Zhang. N, Zhang. HT, Zhou. Y, Sun. S, Yi. NB, Gao, S. Song, QH, Xiao. SM*, Nanoscale, 7, 18914-18917(2015).
23、Inversed Vernier effect based single-mode laser emission in coupled microdisks, Li. M, Zhang. N, Wang. KY, Li. JK, Xiao. SM*, Song. QH*, SCIENTIFIC REPORTS, 5, 13682(2015).
24、Quasi-guiding Modes in Microfibers on a High Refractive Index Substrate Wang. KY, Gu. ZY, Sun. WZ, Li. JK, Xiao. SM*, Song. QH*, ACS PHOTONICS, 1278-1283(2015).
25、Polarization-independent metamaterial with broad ultrahigh refractive index in terahertz region, Liu. ZX, Zhang. C, Sun. S, Yi. NB, Gao. YS, Song. QH, Xiao. SM*, OPTICAL MATERIALS EXPRES, 1949-1953(2015).
26、Absorption enhancement in thin-film organic solar cells through electric and magnetic resonances in optical metamaterial, Zhang. C, Zhou. WZ, Sun. S, Yi. NB, Song. QH, Xiao. SM*, OPTICAL MATERIALS EXPRESS, 1954-1961(2015).
27、Deformed Microdisk-Based End-Fire Injection and Collection Resonant Device, Liu. S, Gu. ZY, Zhang. N, Wang. KY. Lyu, Q. Xu, K, Xiao. SM*, Song. QH*, JOURNAL OF LIGHTWAVE TECHNOLOGY, 3698-3703(2015).
28、Enhancement of magnetic dipole emission at yellow light in optical metamaterials, Hu. WL, Yi. NB, Sun. S, Cui. L, Song. QH, Xiao. SM*, OPTICS COMMUNICATIONS, 202-206(2015).
29、End-fire injection of guided light into optical microcavity, Liu. S, Gu. ZY, Zhang. N, Wang. KY, Xiao. SM, Lyu. Q, Song. QH, APPLIED PHYSICS B-LASERS AND OPTICS, 255-260(2015).
30、Single Nanoparticle Detection Using Far-field Emission of Photonic Molecule around the Exceptional Point, Zhang. N, Liu. S, Wang. KY, Gu. ZY, Li. M, Yi. NB, Xiao. SM*, Song, QH*, SCIENTIFIC REPORTS, 5, 11912(2015).
31、Photon hopping and nanowire based hybrid plasmonic waveguide and ring-resonator, Gu. ZY, Liu. S, Sun. S, Wang. KY, Lyu. Q, Xiao. SM*, Song. QH, SCIENTIFIC REPORTS, 5, 9171(2015).
32、Enhanced second-harmonic generation from nonlinear optical metamagnetics, Sun. S, Yi. NB, Yao, WJ. Song, QH, Xiao. SM*, OPTICS EXPRESS, 26613-26620(2014).
33、The combination of high Q factor and chirality in twin cavities and microcavity chain, Song. QH, Zhang. N, Zhai. HL, Liu. S, Gu. ZY, Wang. KY, Sun. S, Chen. ZW, Li. M, Xiao. SM*, SCIENTIFIC REPORTS, 4, 6493(2014).
34、Coherent destruction of tunneling in chaotic microcavities via three-state anti-crossings, Song. QH, Gu. ZY. Liu, S. Xiao. SM*, SCIENTIFIC REPORTS, 4, 4858(2014).
35、The impact of emission mechanisms on the long-lived states around avoided resonance crossings in chaotic microcavity, Liu. S, Zeng. C, Gu. ZY, Wang. KY, Zhang. N, Sun. S, Xiao. SM, Song. QH, OPTICS EXPRESS, 5086-5097(2014).
36、Deformed microdisk coupled to a bus waveguide for applications in resonant filter, Song. QH, Liu. S, Gu. ZY, Zhang. N, Xiao. SM, OPTICS LETTERS, 1149-1152(2014).




2013
1. L. Ge, Q. H. Song, B. Redding, H. Cao, "Extreme output sensitivity to subwavelength boundary deformation in microcavities", Phys. Rev. A 87, 023833 (2013).
2. Q. H. Song, C. Zeng, S. M. Xiao, "Coherent destruction of dynamical tunneling in asymmetric resonant cavities", Phys. Rev. A 87, 013831 (2013).

2012
1. B. Redding, L. Ge, Q. H. Song, J. Wiersig, G. S. Solomon, H. Cao, "Local Chirality of Optical Resonances in Ultrasmall Resonators", Phys. Rev. Lett. 108, 253902 (2012).
2. Q. H. Song, L. Ge, B. Redding, H. Cao, "Channeling Chaotic Rays into Waveguides for Efficient Collection of Microcavity Emission", Phys. Rev. Lett. 108, 243902 (2012).
3. J. Zhang, Y. D. Zhang, Q. H. Song, H. Tian, X. N. Zhang, H. Wu, J. F. Wang, C. Q. Yu, G. Li, D. K. Fan, "A double-ring Mach-Zehnder interferometer sensor with high sensitivity", J. Phys. D 45, 255102 (2012).

2011
1. Q. H. Song, L. Ge, J. Wiersig, J.-B. Shim, J. Unterhinninghofen, A. Eberspacher, W. Fang, G. S. Solomon, H. Cao, "Wavelength-scale deformed microdisk lasers", Phys. Rev. A 84, 063843 (2011).
2. Q. H. Song, H. Cao, "Highly directional output from long-lived resonances in optical microcavity", Opt. Lett. 36, 103 (2011).

2010
1. Q. H. Song, H. Cao, "Improving Optical Confinement in Nanostructures via External Mode Coupling", Phys. Rev. Lett. 105, 053902 (2010).
2. Q. H. Song, L. Ge, A. D. Stone, H. Cao, J. Wiersig, J.-B. Shim, J. Unterhinninghofen, W. Fang, G. S. Solomon, "Directional Laser Emission from a Wavelength-Scale Chaotic Microcavity", Phys. Rev. Lett. 105, 103902 (2010).
3. Q. H. Song, S. M. Xiao, Z. B. Xu, V. M. Shalaev, Y. L. Kim, "Random laser spectroscopy for nanoscale perturbation sensing", Opt. Lett. 35, 2624 (2010).
4. Q. H. Song, S. M. Xiao, Z. B. Xu, J. J. Liu, X. H. Sun, V. Drachev, V. M. Shalaev, O. Akkus, Y. L. Kim, Opt. Lett. 35, 1425 (2010).
5. Q. H. Song, Z. B. Xu, S. H. Choi, X. H. Sun, S. M. Xiao, O. Akkus, Y. L. Kim, "Detection of nanoscale structural changes in bone using random lasers", Bio-Med. Opt. Exp. 1, 1401 (2010).
6. Q. H. Song, Y. L. Kim, "Perturbation of Nanoparticle on Deformed Microcavity", J. Lightwave Tech. 28, 2818 (2010).
7. Z. B. Xu, X. H. Sun, J. J. Liu, Q. H. Song, M. Muckley, O. Akkus, Y. L. Kim, "Spectroscopic visualization of nanoscale deformation in bone: interaction of light with partially disordered nanostructure", J. Bio-med. Opt. 15, 060503 (2010).
8. J. J. Liu, Z. B. Xu, Q. H. Song, R. L. Konger, Y. L. Kim, "Enhancement factor in low-coherence enhanced backscattering and its applications for characterizing experimental skin carcinogenesis", J. Bio-Med. Opt. 15, 037011 (2010).
9. Y. Zhang, S. W. Ryu, C. Yerino, B. Leung, Q. Sun, Q. H. Song, H. Cao, J. Han, "A conductivity-based selective etching for next generation GaN devices", PHYSICA STATUS SOLIDI B 247, 1713 (2010).

The SCI papers publsihed before 2010 and conference papers have not been listed here and can be found via Web of Science.

任教和任导师经历

  课程名称:介观物理

毕业学生就业情况:
2012级
闵德龙:TP-Link(全称:普联技术有限公司)
陈志伟:青岛鼎信技术有限公司
翟惠林:赛意法微电子
2013级
李猛:中兴
王怡:TP-Link(全称:普联技术有限公司)
2014级
李建凯:华为
文翔:中兴
安宁:睿初科技(深圳)(ASML旗下光刻公司)
最后更新:2018-09-28 11:00:11