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明海老师介绍
明海,教授(博导)。 1947年2月生于江苏。1970年毕业于中国科技大学物理系。曾到日本东京大学,国际理论物理中心和美国等处进修和学术访问。 现任物理系主任,中国科技大学光子技术研究所所长,光电子科学与技术重点实验室主任,中国光学学会理事,"光电子工程",“光电子·激光”,"量子电子学报" 等刊物编委。全国光电专业委员会副主任。承担过第三世界科学基金, 863,973,国家科委,基金委和科学院创新工程等项目,获多项省部级一,二等科研成果奖, 光华科技基金个人一项,授权和受理的专利10余项。出版专著3本, 在国内外重要学术刊物发表论文150余篇。
研究方向:光电子技术,光纤非线性光学,聚合物光子学和近场光学。
近两年发表的文章:
1. Properties of polarized laser-induced briefringent gratings in azobenzene-doped poly(methyl methecrylate) optical fibers; Optics Communications, 204(2002)137-143
2. Fractal clusters in Eu doped polymer fiber studied by Scanning Near-field Optical Microscopy, Optics Communications, Vol. 208, 2002, p97-101
3. Using spectra analysis and Scanning Near-field Optical Microscopy to study Eu doped polymer fiber,Optics Communications,Vol.208,2002,p111-115.
4. Increase the storage density of solid immersion lens system by high-pass angular spectrum filter method, Optics Communication, 203(2002) 87
5. Properties of raman spectrum and laser induced birefringence in polymer optical fiber, J.Opt.A 4(2002 )237
6. Nolinear optical and optical-limit properties of azobenzene polymer; Optical Communication; 203(2002): 159-162
7. Increase the storage density of solid immersion lens system by high-pass angular spectrum filter method, Optics Communication, 203(2002):87
8. Angular Multiplexing Storage in Azo-polymer Liquid Crystal Films Using Shearing Interferometer of Double-frequency Grating,Chinese Journal Of Lasers, B11(2 ):121
9. The structures and characteristics of doped fiber and Waveguide devices studied by near-field optical method, Second Joint Symposium on Opto-and Microelectronic Devices and Circuits,March 10-16,2002
10. Simulation of super resolution near-field structure (Super-RENS) using finite differential time domain (FDTD) method, Proceeding of SPIE, 2002, Vol.4930, 503-507
11. Numerical analysis of micro-aperture laser for near-field optical data storage, Proceeding of SPIE, 2002, Vol.4930,169-174
12. The write strategy investigation of multi-level optical storage in Azobenzene liquid crystal polymer film, Proceeding of SPIE,Vol.4930 。44,Page105
13. Experimental Study of Single Frequency Yb-doped Fiber Amplifier, Chinese Journal Of Lasers ,Vol.A29, No.9 September,2002 0258-7025(2002)09-0777-03
14. Near-Field Scanning Optical Spectroscopy: Localized Fluorescence Spectra of Cluster in Nd3+ Doped Polymer Optical Fiber, CHIN.PHY.LETT. Vol.19,No.9(2002) 1369
15. A Novel Conventional/Long-Band Erbium-Doped Fiber Amplified Spontaneous Emission Source with 80 nm Bandwidth, Chin.Phys.Lett, Vol.19,No.9(2002) 1307
16. Analysis of Trapping Force and Torque for Fiber-optical Trap by the Finite-differential Time-domain(FDTD) Method, Chinese Journal of Laser, Vol.B11, No.3
17. Optical-transition probabilities of Nd3+ ions in polymer optical fibers, Optics Communications, 199(2001) 369-373
18. An Approach for Optical Switching Property and Mechanics of AgOx Thin Films, Chinese Journal of Laser, Vol.A29, No.5 May, 2002
19. Multi-photon-absorption-induced birefringent grating in azobenzene-doped polymethyl methacrylate optical fibers, Journal of Optics A, Pure Appl. Opt.4(2002)L5-L7
20. Investigation on the mechanism of AgOx film super resolution near-field structure, Optics, Optik 113,No.7(2002) 322-324
21. Stimulated Raman Spectrum Threshold in Poly(methyl methacrylate) optical fibers, Optics Communications 199(2001) 89-93
22. The size effect in the AgOx-type super-resolution near-field structure, Optics Communications 212(2002) 7-10
23. One-stage erbium ASE source with 80 nm bandwidth and low ripples, Electronics Letters, 15th August 2002 Vol.38 No. 17
24. Optical property of fractal clusters in Nd3+-doped polymer optical fiber; Journal of Material Science Letter , Vol.20(2001)521-523.
25. Laser amplification mechanism in the Nd3+-doped polymer opticalfiber;chin.phys.lett Vol.18 No.10 (2001)1337
办公电话: 0551-3603504(O)
Email: minghai@ustc.edu.cn
通讯地址:安徽合肥中国科学技术大学物理系
邮政编码:230026
研究方向:光电子技术,光纤非线性光学,聚合物光子学和近场光学。
近两年发表的文章:
1. Properties of polarized laser-induced briefringent gratings in azobenzene-doped poly(methyl methecrylate) optical fibers; Optics Communications, 204(2002)137-143
2. Fractal clusters in Eu doped polymer fiber studied by Scanning Near-field Optical Microscopy, Optics Communications, Vol. 208, 2002, p97-101
3. Using spectra analysis and Scanning Near-field Optical Microscopy to study Eu doped polymer fiber,Optics Communications,Vol.208,2002,p111-115.
4. Increase the storage density of solid immersion lens system by high-pass angular spectrum filter method, Optics Communication, 203(2002) 87
5. Properties of raman spectrum and laser induced birefringence in polymer optical fiber, J.Opt.A 4(2002 )237
6. Nolinear optical and optical-limit properties of azobenzene polymer; Optical Communication; 203(2002): 159-162
7. Increase the storage density of solid immersion lens system by high-pass angular spectrum filter method, Optics Communication, 203(2002):87
8. Angular Multiplexing Storage in Azo-polymer Liquid Crystal Films Using Shearing Interferometer of Double-frequency Grating,Chinese Journal Of Lasers, B11(2 ):121
9. The structures and characteristics of doped fiber and Waveguide devices studied by near-field optical method, Second Joint Symposium on Opto-and Microelectronic Devices and Circuits,March 10-16,2002
10. Simulation of super resolution near-field structure (Super-RENS) using finite differential time domain (FDTD) method, Proceeding of SPIE, 2002, Vol.4930, 503-507
11. Numerical analysis of micro-aperture laser for near-field optical data storage, Proceeding of SPIE, 2002, Vol.4930,169-174
12. The write strategy investigation of multi-level optical storage in Azobenzene liquid crystal polymer film, Proceeding of SPIE,Vol.4930 。44,Page105
13. Experimental Study of Single Frequency Yb-doped Fiber Amplifier, Chinese Journal Of Lasers ,Vol.A29, No.9 September,2002 0258-7025(2002)09-0777-03
14. Near-Field Scanning Optical Spectroscopy: Localized Fluorescence Spectra of Cluster in Nd3+ Doped Polymer Optical Fiber, CHIN.PHY.LETT. Vol.19,No.9(2002) 1369
15. A Novel Conventional/Long-Band Erbium-Doped Fiber Amplified Spontaneous Emission Source with 80 nm Bandwidth, Chin.Phys.Lett, Vol.19,No.9(2002) 1307
16. Analysis of Trapping Force and Torque for Fiber-optical Trap by the Finite-differential Time-domain(FDTD) Method, Chinese Journal of Laser, Vol.B11, No.3
17. Optical-transition probabilities of Nd3+ ions in polymer optical fibers, Optics Communications, 199(2001) 369-373
18. An Approach for Optical Switching Property and Mechanics of AgOx Thin Films, Chinese Journal of Laser, Vol.A29, No.5 May, 2002
19. Multi-photon-absorption-induced birefringent grating in azobenzene-doped polymethyl methacrylate optical fibers, Journal of Optics A, Pure Appl. Opt.4(2002)L5-L7
20. Investigation on the mechanism of AgOx film super resolution near-field structure, Optics, Optik 113,No.7(2002) 322-324
21. Stimulated Raman Spectrum Threshold in Poly(methyl methacrylate) optical fibers, Optics Communications 199(2001) 89-93
22. The size effect in the AgOx-type super-resolution near-field structure, Optics Communications 212(2002) 7-10
23. One-stage erbium ASE source with 80 nm bandwidth and low ripples, Electronics Letters, 15th August 2002 Vol.38 No. 17
24. Optical property of fractal clusters in Nd3+-doped polymer optical fiber; Journal of Material Science Letter , Vol.20(2001)521-523.
25. Laser amplification mechanism in the Nd3+-doped polymer opticalfiber;chin.phys.lett Vol.18 No.10 (2001)1337
办公电话: 0551-3603504(O)
Email: minghai@ustc.edu.cn
通讯地址:安徽合肥中国科学技术大学物理系
邮政编码:230026
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