兰胜
华南师范大学信息光电子科技学院/正高2015-12-01 00:00:00来源:华南师范大学评论:0收藏本文
个人简历
姓名: 兰胜
教研室名称:光子信息技术
职称:教授
办公地点:理4栋511
电子邮箱: slan@scnu.edu.cn
最后学位及授予单位:博士(北京大学)
研究方向:纳米光子学
主讲课程:半导体物理
科研项目:
立项年份 项目名称 立项部门 项目编号 项目经费
2003 国家自然科学基金面上项目“非线性光子晶体与超短脉冲的相互作用” 国家自然科学基金委 No.10374065 25
2006 国家自然科学基金面上项目“非线性光子晶体的动态响应性质及其在超快全光功能器件中的应用” 国家自然科学基金委 No.10674051 34
2008 国家自然科学基金国际合作与交流项目“基于非线性光子晶体的全光开关器件的研究” 国家自然科学基金委 No.10811120010 9
2009 国家自然科学基金面上项目“激光与微纳米粒子的相互作用及其器件应用” 国家自然科学基金委 No.10974060 40
2010 国家自然科学基金国际合作与交流项目“金纳米棒的非线性光学性质及其在高密度光存储介质中的应用” 国家自然科学基金委 No.11111120068 9
2011 国家自然科学基金面上项目“紫外至太赫兹超宽电磁波段吸波金属材料的研究” 国家自然科学基金委 No.51171066 60
2013 国家自然科学基金面上项目“弱声子环境下金纳米棒及其核壳结构非线性和瞬态光学性质的研究” 国家自然科学基金委 No.11374109 87
2003 广东省自然科学基金面上项目:“非线性光子晶体波导中光孤子的产生、特性及其应用” 广东省自然科学基金委 No. 32050 5
2004 教育部新世纪优秀人才支持计划项目 教育部 50
2006 广东省自然科学基金面上项目:“非线性光子晶体耦合腔波导单向导通性质的研究” 广东省自然科学基金委 No. 06025082 8
2007 广东省教育厅高等学校创新团队项目“光控光物理与器件的研究” 广东省教育厅 No. 06CXTD005 180
2010 广东省高等学校高层次人才项目 广东省教育厅 80
2012 教育部博士点基金项目“金属微纳米结构和粒子与太赫兹波的电磁相互作用及其应用” 教育部 No. 20114407110002 12
发表论文(近五年通讯作者论文):
1. “Upconversion luminescence from aluminoborate glasses doped with Tb3+, Eu3+ and Dy3+ under the excitation of 2.6-m femtosecond laser pulses,” Opt. Express 23, 243906 (2015).
2. “Enhanced second harmonic generation of MoS2 on a thin gold film,” Nanoscale 7, 13547 (2015).
3. “Numerical study of nanoparticle sensors based on the detection of the two-photon-induced luminescence of gold nanorods antennas,” Plasmonics 9, 1491 (2014).
4. “Nonlinear Optical Properties of Large-Sized Gold Nanorods,” Plasmonics 9, 1471 (2014).
5. “Formation of 100-nm periodic structures on a titanium surface by exploiting the oxidation and third harmonic generation induced by femtosecond laser pulses,” Opt. Express 22, 28086 (2014).
6. “Efficient blue light emission from In0.16Ga0.84N/GaN multiple quantum wells excited by 2.48-μm femtosecond laser pulses,” Opt. Lett. 39, 3555 (2014).
7. “Controllable color display induced by excitation-intensity-dependent competition between second and third harmonic generation in ZnO nanorods,” Appl. Opt. 53,189 (2014).
8. “Assembling of Silicon Nanoflowers with Significantly Enhanced Second Harmonic Generation Using Silicon Nanospheres Fabricated by Femtosecond Laser Ablation,”J. Phys. Chem. C 117, 24625 (2013).
9. “Effect of plasma confinement on the femtosecond ablation of silicon,” Opt. Communs. 308, 54 (2013).
10. “Negative Slope for Second Harmonic Generation Observed at High Excitation Intensities in ZnO Nanorods,” IEEE J. Quan. Electron. 49, 903 (2013).
11. “Sensing the Moving Direction, Position, Size, and Material Type of Nanoparticles with the Two-Photon-Induced Luminescence of a Single Gold Nanorod,” J. Phys. Chem. C 117, 20146 (2013).
12. “Strong localization of terahertz wave and significant enhancement in electric field achieved in U-shaped resonators with a large aspect ratio,” Appl. Phys. Lett. 103, 123505 (2013).
13. “Design of Optical Filters with Flat-on-Top Transmission Lineshapes Based on Two Side-Coupled Metallic Grooves,” Plasmonics 8, 283 (2013).
14. “Competition between second harmonic generation and two-photon-induced luminescence in single, double and multiple ZnO nanorods,” Opt. Express 21, 10025 (2013).
15. “Efficient three-photon luminescence with strong polarization dependence from scintillating silicate glass co-doped with Gd3+ and Tb3+,” Opt. Express 21, 6020 (2013).
16. “Asymmetric femtosecond laser ablation of silicon surface governed by the evolution of surface nanostructures,” Opt. Express 21, 4439 (2013).
17. “Size dependent competition between second harmonic generation and two-photon luminescence observed in gold nanoparticles,” Nanotechnology 24, 075201 (2013).
18. “Modified threshold of two-photon-pumped random lasing of ZnO nanorods by femtosecond laser ablation,” J. Appl. Phys. 112, 063102 (2012).
19. “Selective appearance of several laser-induced periodic surface structure patterns on a metal surface using structural colors produced by femtosecond laser pulses,” Appl. Surf. Sci. 258, 7625 (2012).
20. “Femtosecond laser ablation of ZnO nanorods for two-photon-pumped random lasing and optical data storage,” Appl. Phys. B 108, 61 (2012).
21. “Role of interfering optical fields in the trapping and melting of gold nanorods and related clusters,” Opt. Express 20, 10963 (2012).
22. “Assembling of three-dimensional crystals by optical depletion force induced by a single focused laser beam,” Opt. Express 20, 9616 (2012).
23. “Colorizing silicon surface with regular nanohole arrays induced by femtosecond laser pulses,” Opt. Lett. 37, 1106 (2012).
24. “Effects of p-type doping on the optical properties of InAs/GaAs quantum dots,” Solid State Commun. 152, 435 (2012).
25. “High spatial frequency periodic structures induced on metal surface by femtosecond laser pulses,” Opt. Express 20, 905 (2012).
26. “Transmission of terahertz wave through one-dimensional photonic crystals containing single and multiple metallic defects,” J. App. Phys.110, 073101 (2011).
27. “Defect modification and energy extraction in a terahertz photonic crystal,” J. Appl. Phys. 109, 024902 (2011).
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