蒙自明,博士,畢業於中國科學院物理研究所,師從國家傑出青年科學基金獲得者李志遠研究員。
基本介紹
- 中文名:蒙自明
- 國籍:中國
- 畢業院校:中國科學院物理研究所
- 學位/學歷:博士
- 職業:教師
教育背景,工作經歷,期刊論文,會議論文,科研項目,
教育背景
1. 2009/9 - 2012/7,中國科學院物理研究所,光學,博士,導師:李志遠研究員
2. 2006/9 - 2009/7,華南師範大學,光學,碩士,導師:蘭勝教授
3. 2002/9 - 2006/7,華南師範大學,信息工程(光電子),學士
工作經歷
1. 2019/1 – 至今,廣東工業大學,物理與光電工程學院,副教授
2. 2014/7 – 2018/12,廣東工業大學,物理與光電工程學院,講師
3. 2012/7 - 2014/7,廣東工業大學,師資博士後,合作導師:胡義華教授
期刊論文
1. Z. M. Meng, and Z. Y. Li, “Control of Fano resonances in photonic crystal nanobeams side-coupled with nanobeam cavities and their applications to refractive index sensing”, J. Phys. D: Appl. Phys. 51, 095106 (2018).
2. Z. M. Meng, and F. Qin, “Realizing Prominent Fano Resonances in Metal-Insulator-Metal Plasmonic Bragg Gratings Side-Coupled with Plasmonic Nanocavities”, Plasmonics 13, 2329 (2018).
3. Z. M. Meng, A. H. Liang and Z. Y. Li, “Fano resonances in photonic crystal nanobeams side-coupled with nanobeam cavities,” J. Appl. Phys. 121, 193102 (2017).
4. Z. M. Meng, Y. H. Hu, G. F. Ju, X. L. Zhong, W. Ding and Z. Y. Li, ”Numerical investigation of optical Tamm states in two-dimensional hybrid plasmonic-photonic crystal nanobeams,” J. Appl. Phys. 116, 043106 (2014).
5. Z. M. Meng, Y. H. Hu, C. Wang, X. L. Zhong, W. Ding and Z. Y. Li, “Design of high-Q silicon-polymer hybrid photonic crystal nanobeam microcavities for low-power and ultrafast all-optical switching,” Photon. Nanostruct. Fundam. Appl. 12, 83 (2014).
6. Z. M. Meng, X. L. Zhong, C. Wang and Z. Y. Li, “Numerical investigation of high-contrast ultrafast all-optical switching in low-refractive-index polymeric photonic crystal nanobeam microcavities,” EPL 98, 54002 (2012).
7. Z. M. Meng, F. Qin and Z. Y. Li, “Ultrafast all-optical switching in one-dimensional semiconductor-polymer hybrid nonlinear photonic crystals with relaxing Kerr nonlinearity,” J. Opt. 14, 065003 (2012).
8. Z. M. Meng, X. L. Zhong, C. Wang and Z. Y. Li, “Fabrication of air-bridged Kerr nonlinear polymer photonic crystal slab structures in the near-infrared region,” Chin. Opt. Lett. 10, 112202 (2012).
9. Z. M. Meng, F. Qin, Y. Liu, and Z. Y. Li, “High-Q microcavities in low-index one-dimensional photonic crystal slabs based on modal gap confinement,” J. Appl. Phys. 109, 043107 (2011).
10. Z. M. Meng, H. Y. Liu, W. R. Zhao, W. Zhang, H. D. Deng, Q. F. Dai, L. J. Wu, S. Lan, and A. V. Gopal, “Effects of optical force on the transmission of magnetic fluids investigated by Z-scan technique,” J. Appl. Phys. 106, 044905 (2009).
11. Z. M. Meng, H. Y. Liu, Q. F. Dai, L. J. Wu, Q. Guo, W. Hu, S. H. Liu, S. Lan, and V. A. Trofimov, “Dependence of nonlinearity enhancement on power density in photonic crystals characterized by numerical Z-scan experiments based on the finite-difference time-domain technique,” J. Opt. Soc. Am. B, 25, 555 (2008).
12. 梁安輝,蒙自明,“用視錐的光纖耦合器理論解釋色覺”,科學通報,61(26), 2952-2959 (2016)。
13. Z. Y. Li and Z. M. Meng, “Polystyrene Kerr nonlinear photonic crystals for building ultrafast optical switching and logic devices,” J. Mater. Chem. C 2, 783 (2014). Feature Article
14. S. Y. Liu, L. Huang, J. F. Li, C. Wang, Q. Li, H. X. Xu, H. L. Guo, Z. M. Meng, Z. Shi, and Z. Y. Li, “Simultaneous excitation and emission enhancement of fluorescence assisted by double plasmon modes of gold nanorods,” J. Phys. Chem. C 117, 10636 (2013).
15. F. Qin, Z. M. Meng, X. L. Zhong, Y. Liu, and Z. Y. Li, “Fabrication of semiconductor-polymer compound nonlinear photonic crystal slab with highly uniform infiltration based on nano-imprint lithography technique,” Opt. Express 20, 13091(2012).
16. F. Qin, Z. M. Meng, and Z. Y. Li, “Design of all-optical switching component based on pillar-array hybrid nonlinear photonic crystal cavity,” J. Opt. Soc. Am. B 29, 2314 (2012).
17. X. L. Zhong, Z. Y. Li, Z. M. Meng, and Y. S. Zhou, “Mode analysis for periodically modulated metal slits,” J. Mod. Optic. 59, 830 (2012).
18. Y. Liu, F. Qin, Z. M. Meng, F. Zhou, Q. H. Mao, and Z. Y. Li, “All-optical logic gates based on two-dimensional low-refractive-index nonlinear photonic crystal slabs,” Opt. Express 19, 1945 (2011).
19. F. Qin, Y. Liu, Z. M. Meng, and Z. Y. Li, “Design of Kerr-effect sensitive microcavity in nonlinear photonic crystal slabs for all-optical switching,” J. Appl. Phys. 108, 053108 (2010).
20. J. H. Lu, Z. M. Meng, H. Y. Liu, T. H. Feng, Q. F. Dai, L. J. Wu, Q. Guo, W. Hu, and S. Lan, “Modification of spontaneous emission rate of micrometer-sized light sources using hollow-core photonic crystal fibers,” Chin. Phys. B 18, 4333 (2009).
21. H. Y. Liu, Z. M. Meng, Q. F. Dai, L. J. Wu, S. Lan, and S. H. Liu, “Experimental investigation of the slow light and superluminal effects in high-quality three-dimensional colloidal photonic crystals,” Acta Physica Sinica 58, 4702 (2009).
22. H. Y. Liu, Z. M. Meng, Q. F. Dai, L. J. Wu, Q. Guo, W. Hu, S. H. Liu, S. Lan, and T. Yang, “Ultrafast carrier dynamics in undoped and p-doped InAs/GaAs quantum dots characterized by pump-probe reflection measurements,” J. Appl. Phys. 103, 083121 (2008).
23. J. Liu, Q. F. Dai, Z. M. Meng, X. G. Huang, L. J. Wu, Q. Guo, W. Hu, S. Lan, A. V. Gopal, and V. A. Trofimov, “All-optical switching using controlled formation of large volume three-dimensional optical matter,” Appl. Phys. Lett, 92, 233108 (2008).
會議論文
1. Z. M. Meng, “Controlling Fano resonances in photonic crystal nanobeams side-coupled with nanobeam cavities”, Asia Communications and Photonics Conference 2017, paper Su2A.152 (poster), Guangzhou, November 12, 2017.
2. Z. M. Meng, and Z. Y. Li, “Design and fabrication of silicon-polymer hybrid photonic crystal nanobeam structures for achieving integrated ultrafast all-optical switching”, PIERS 2014, (oral), Guangzhou, August 26, 2014.
3. Z. M. Meng, Y. H. Hu and Z. Y. Li, “Design and fabrication of low-refractive-index polymeric photonic crystal nanobeam structures,” Asia Communications and Photonics Conference 2012, paper AS4B.3 (oral), Guangzhou, November 7, 2012.
科研項目
1. 國家自然科學基金青年項目,11604057,矽-聚合物複合非線性光子晶體全光開關的研究,2017/01-2019/12,23萬元,在研,主持。
2. 廣東省高等學校學科建設專項資金,261555117,微納米尺度下調控納米長餘輝發光材料發光性能的研究,2015/01-2016/12,5萬元,結題,主持。
3. 2016年廣東省套用型科技研發專項資金項目,2016B010126005,利用光學非線性補償器的高速相干光通信系統的研發及產業化,2016/09-2019/09,800萬元,在研,參與。