Ren-Min Ma 马仁敏
Middle 406, School of Physics,
Peking University, Beijing 100871
Phone: +86 10 6276 0275
Email: renminma@pku.edu.cn
Group website: http://www.phy.pku.edu.cn/~renminma/
Research Experiences
2014/03‐present
Assistant Professor
School of Physics
State Key Lab for Mesoscopic Physics
Collaborative innovation center of quantum matters
Peking University
2009/08‐2014/03
Postdoctoral Research Fellow,
University of California, Berkeley
2004/09‐2009/08
Graduate Student Research Assistant
Peking University
Research Interest
Nanoscale lasers and physics, quantum optics and photonics, nanoelectronics and biochemical sensors.
Education
July 2009 Ph.D. in Physics Peking University
July 2004 B.S. in Applied Physics
University of Science and Technology Beijing
Selected Honors and Awards
2014: The Recruitment Program of Global Youth Experts
2011: National Top 100 Ph.D. Dissertations of China (among all fields)
2011: Excellent Ph.D. Dissertation of Peking University
2009: Outstanding Graduate of Peking University
2008: Chinese Physical Society Qi‐Sun Ye Experimental Physics Award
2008: Top Ten Graduate Researcher of Peking University (First Place)
2007: Academic Innovation Award, Peking University
2007: Chinese Academy of Science Scholarship
2007: First‐Class Prize, the 5th S. B. Zhong Education Fund Graduate Forum
Representative Publications
1. R. M. Ma et al. “Explosive Detection in a Lasing Plasmon Nanocavity”
Nature Nanotechnology 9, (2014) 600.
Highlighted by: Optics and Photonics News, Azosensors, Nanotechweb and KTVU etc.
2. R. M. Ma et al. “Plasmon lasers: coherent light source at molecular scales”
Laser & Photonics Reviews 7 (2013) 1.
3. R. M. Ma et al. “Multiplexed and Electrically Modulated Plasmon Laser Circuit”
Nano Letters 12 (2012) 5396
Highlighted by:
Scientific American 'Atomic Toolbox: Manufacturing at the Nanoscale'
C&EN 'Researchers Build Compact Optical Circuit'
UC Research 'Pushing innovations to industry's doorstep'
4. R. M. Ma et al. “Room temperature sub‐diffraction‐limited plasmon laser by total internal
reflection”
Nature Materials 10 (2011) 110.
Highlighted by:
Science 'Ever-Smaller Lasers Pave the Way For Data Highways Made of Light' 328 (2009) 810
Science “Spotlight on Plasmon Lasers” 333 (2011) 709
MIT Technology Review “NanoLasers Heat Up” Jan. 13, 2011
Materials Today “Plasmon lasers at room temperature” Feb. 15, 2011
Nano Today “Nano-Laser” Feb. 4, 2011
5. R. M. Ma et al. “Light coupling and modulation in coupled nanowire Ring‐Fabry‐Perot cavity”
Nano Letters 9 (2009) 2697.
Highlighted by:
NatureChina 'Nanodevices: Ring Cavity'
6. R. F. Oulton, V. J. Sorger, T. Zentgraf, R. M. Ma et al. “Plasmon lasers at deep subwavelength
|
scale”
Nature, 461 (2009) 629.
Highlighted by:
Nature “Lasers go nano” 461 (2009) 604
Science “Ever-Smaller Lasers Pave the Way For Data Highways Made of Light ” 328 (2009) 810
Nature Photonics “Birth of the nanolaser” 3 (2009) 545
Nature Nanotechnology “Lasers go beyond diffraction limit” 4 (2009) 706
MIT Technology Review “Year of the Laser” Vol. 1, p.26-31, Mar 2010
7. R. M. Ma et al. “High‐Performance Logic Circuits Constructed on Single CdS Nanowires”
Nano Letters 7 (2007) 3300.
8. R. M. Ma et al. “High‐Performance Nano‐Schottky Diodes and Nano‐MESFETs Made on Single
CdS Nanobelts”
Nano Letters 7 (2007) 868.
Patent
1. “Plasmon lasers at deep subwavelength scale”
Xiang Zhang, Volker Sorger, Rupert Oulton and Ren-Min Ma. US Patent No. US 8,509,276 B2, 2013.
2. “Waveguide embedded plasmon laser with multiplexing and electrical modulation”
Ren-Min Ma and Xiang Zhang, U.S. Patent Application Serial No. 14/052,504