|Assoc Prof Tang Dingyuan |
Division of Microelectronics
School of Electrical & Electronic Engineering
College of Engineering
Phone: (+65)6790 4337
- PhD The University of Hannover 1993
- MS Chinese Academy of Sciences 1986
- BS The University of Wuhan 1983
|Prof. Tang is currently in the School of Electrical and Electronic Engineering since July, 2000. He received his Bachelor degree in Physics from Wuhan University, China, Master degree in Optics from the Shanghai Institute of Optics and Fine Mechnics, Chinese Academy of Science, China, and Ph.D. degrees from the Hannover University, Germany,respectively. His research interests include laser physics and engineering, nonlinear optics and dynamics, ultrafast optics, nano optics, and optics communications. He has done excellent research work in his research areas and published over 140 top quality international journal papers. He has been often invited as a committee member or referee and reviewer for a number of premier conferences and journals, including Physical Reveiw Letters, Physical Review A & E, Optics Letters, Optics Express, etc. Dr. Tang is a member of Optical Society of America.|
|Laser physics and engineering, laser technology, nonlinear optics, nonlinear fiber optics, ultrafast optics, nonlinear dynamics of optical systsms, nano optics, optical materials|
|Research Grant |
- A*STAR Science and Engineering Research Council (2012-2015) [by A*STAR Science & Engineering Research Council (SERC)]
- Academic Research Fund Tier 1 (2005-)
- Academic Research Fund Tier 1 (2013-2015) [by Ministry of Education (MOE)]
- Academic Research Fund Tier 2 (2012-2015) [by Ministry of Education (MOE)]
- Asian Office Aerospace Research and Development (2011-)
- Asian Office Aerospace Research and Development (2012-)
- Asian Office Aerospace Research and Development (2013-)
- Defence Research and Technology Office (DRTech) (2008-)
- Defence Research and Technology Office (DRTech) (2012-)
- International Technology Centre Pacific (ITC-PAC) (2011-)
|Current Projects |
- Development of ER3+- Doped Y2O3 Laser Ceramic for Mid-IR Applications
- Graphene Optoelectronics and Photonics
- Investigating supercontinum generation for enhancing the performance of bioimaging and biosensing systems
- Measurement of the Third-Order Nonlinear Susceptibility of Graphene and its Derivatives
- Mid-Infrared Supercontinuum Generation in InF3 and Lead-Bismuth-gallium Fibers
- Mode locking of lasers with atomic layer graphene
- Study of Near-field Dipole Interactions and Plasmon Propagation in Metal Nanoparticle Chains for the Application of Nanoscale Optical Interconnects on Silicon Chips
- Sub-Project 5 - Development of Ceramic Laser Materials
- Sub-Project 5 - Development of Ho3+ and Yb3+ – Doped Sesquioxide Transparent Ceramics for Laser Applications
- Ultrafast Optics - Vector Cavity Fiber Lasers: Physics and Technology
- G. Q. Xie, D. Y. Tang, J. Kong, and L. J. Qian. (2007). Passive mode-locking of a Nd:YAG ceramic laser by optical interference modulation in a GaAs wafer. Optics Express, 15, 5360-5365.
- J. Kong, D. Y. Tang, C. C. Chan, J. Lu, K. Ueda, H. Yagi, and T. Yanagitani. (2007). High-efficiency 1040 and 1078nm laser emission of a Yb:Y2O3 ceramic laser with 976 nm diode pumping. Optics Letters, 32, 247-249.
- D. Y. Tang, L. M. Zhao, G. Q. Xie, and L. J. Qian. (2007). Coexistence and competition between two soliton shaping mechanisms in a fiber laser. Physical Review A, 75.
- D. Y. Tang, and L. M. Zhao. (2007). Generation of 47fs pulses directly from an erbium-doped fiber laser. Optics Letters, 32, 41-43.
- L. M. Zhao, D. Y. Tang, T. H. Cheng, and C. Lu. (2007). Ultrashort pulse generation in lasers by nonlinear pulse amplification and compression. Applied Physics Letters, 90(051102).