quantum simulation/computation theory involving cold atoms/molecules/ions and other quantum optical systems.
研究方向：quantum simulation/computation theory involving cold atoms/molecules/ions and other quantum optical systems.
Postdoctoral Research Fellow, Harvard University, 2012-2013
Postdoctoral Research Fellow, University of Connecticut, 2010-2012
Postdoctoral Research Associate, Institute for Theoretical Atomic, Molecular, and Optical Physics, Harvard-Smithsonian Center for Astrophysics and Harvard Physics Department, 2010-2013
Ph.D., University of Michigan, 2004-2010
M.S., National Taiwan University, 1998-2000
B.S., National Taiwan University, 1994-1998
My research interest is along the field of quantum simulation/computation theory involving cold atoms/molecules/ions and other quantum optical systems. In particular, my work includes
1. Ultracold atoms/molecules, optical lattices, and the connections to other disciplines, such as condensed matter physics.
2. Trapped ion quantum computing/simulation and quantum phase transitions.
3. Cooperative phenomena and superradiance.
1.Guin-Dar Lin and Susanne F. Yelin, Vibrational spectroscopy of polar molecules with superradiance, Molecular Physics 111, 1917-1922 (2013).
2.Simcha Korenblit, Dvir Kafri, Wess C. Campbell, Rajibul Islam, Emily E. Edwards, Zhe-Xuan Gong, Guin-Dar Lin, Luming Duan, Jungsang Kim, Kihwan Kim, and Chris Monroe, Quantum simulation of spin models on an arbitrary lattice with trapped ions, New Journal of Physics 14, 095024 (2012).
3.G.-D. Lin and S. F. Yelin, Superradiance: an integrated approach to cooperative effects in various systems, Advances in Atomic Molecular Optical Physics 61, Chapter 6, p295--329 (2012).
4.G.-D. Lin and S. F. Yelin, Superradiance in spin-j particles: Effects of multiple levels, Phys. Rev. A 85, 033831 (2012).