Collaboration Network
Ricky Ang
Ng Teng Fong Chair Professor
Head of Science and Math and Technology
Singapore University of Technology and Design
Singapore
ricky_ang{at}sutd.edu.sg
Profile page [https://epd.sutd.edu.sg/people/faculty/ang-lay-kee-ricky]
Energy, Electron Plasma and Plasmonic (EEPP) Group [http://people.sutd.edu.sg/ricky_ang]
Ricky Ang is the Ng Teng Fong Chair Professor of the SUTD-ZJU IDEA research collaboration center. His research interests are primarily to understand the interactions of energetic beam (electron, laser and electromagnetic pulse) in its surrounding structures and materials, and to explore its novel applications. He mainly work on the theory and simulation, but collaborate closely with experimental groups.
Dawn Tan
Associate Professor
Engineering Product Development
Singapore University of Technology and Design
Singapore
dawn_tan{at}sutd.edu.sg
Profile page [https://epd.sutd.edu.sg/people/faculty/dawn-tan]
Photonic Devices and Systems Group [http://photonics.sutd.edu.sg]
Dawn Tan is the MIT Technology Review Regional Innovator Under 35 for the year 2017. Her group is part of the Engineering Product Development Pillar at SUTD focusing on the study of photonic devices and systems, specifically in the fields of nanophotonics, silicon photonics, nonlinear optics, plasmonics and optical signal processing.
Yee Sin Ang
Assistant Professor
Science, Math and Technology
Singapore University of Technology and Design
Singapore
yeesin_ang{at}sutd.edu.sg
Profile page [https://smt.sutd.edu.sg/people/faculty/ang-yee-sin]
Energy, Electron Plasma and Plasmonic (EEPP) Group [http://people.sutd.edu.sg/ricky_ang]
Yee Sin Ang works on electron transport and emission phenomena of 2D materials and topological solids. He is interested in the mathematical modelling of nanoelectronics, valleytronics, vacuum electronics, Andreev reflections, optical properties of 2D materials, graphene plasmonics and the interfacial carrier transport problems of low-dimensional nanostructures.
Muhammad Zubair
Assistant Professor
Department of Electrical Engineering
Information Technological University
Lahore, Pakistan
muhammad.zubair{at}itu.edu.pk
Profile page [https://itu.edu.pk/faculty-itu/dr-muhammad-zubair]
Applied and Computational Electromagnetics Group [https://sites.google.com/view/mzubair]
Muhammad Zubair current research interests are electromagnetic field theory, computational electromagnetics, bio-electromagnetics, charge transport, electron device modeling, fractal electrodynamics and microwave imaging.
Jin-Luo Cheng
Associate Professor
Changchun Institute of Optics, Fine Mechanics and Physics
Chinese Academy of Sciences
Changchun, China
jlcheng{at}ciomp.ac.cn
Guo China-US Photonics Lab [http://www.guo-lab.org/Member]
Jin-Luo Cheng current research interests focus on theoretical investigation on physical properties of semiconductors, metals, and 2D materials, including band structure, optical nonlinearities, optical injection and coherent control, spin dephasing and transport, and the first principle calculation; the 1D photonic crystal and the optics in 2D materials. The research fields covers condensed matter physics and optics and their interdisciplinary subject.
Shi-Jun Liang
Assistant Professor
School of Physics
Nanjing University
Nanjing, China
sjliang{at}nju.edu.cn
Lab of Mesoscopic Physics and Quantum Devices [http://nano.nju.edu.cn/eng_index.html]
Shi-Jun Liang research interests are in Semiconductor devices, Materials Science and Condensed Matter Physics.
Chang-Yu Hsieh
Senior researcher
Tencent Quantum Lab
Shenzhen, Guangdong, China
changyuh{at}mit.edu
https://quantum.tencent.com/en-us/
Chang-Yu Hsieh focuses on the following topics: 1) open quantum dynamics of simple systems embedded in a highly Non-Markovian spin bath, to understand and design control protocol to suppress decoherence of solid state qubits in the low temperature regime where qubit-phonon interactions can be safely ignored. 2) Quantum-classical Mapping, through the framework of Lie algebra and geometry, an attempt to approximate a finite-level quantum system with an effective classical system, allowing efficient calculation of the nonlinear response properties of a finite-level quantum system for an optical experiment.