The equilibrium and dynamical properties of dipolar quantum gases Abstract: Quantum gases, consisting of ultracold bosonic or fermionic particles, are prospective candidates for quantum computation and quantum simulation because of the unprecedented cleanness and controllability. The experimental realizations of chromium condensate and degenerate polar molecules, which are respectively famous for the relatively large magnetic and electric dipole-dipole interaction, stimulate significant interest on studying dipolar quantum gases. In this talk, I will first introduce the theoretical treatment for bosonic and fermionic systems, and then I will use the results of numerical simulation to describe the equilibrium and dynamical properties of dipolar quantum gases. Biography: She is currently a Postdoctoral Fellow in IIIS, Tsinghua University. She received her Bachelor of Science in Physics from Beijing Normal University and completed her PhD in Theoretical Physics, Institute of Theoretical Physics, Chinese Academy of Sciences. Her research interests lie in the area of Dipolar quantum gases, Computational physics and Quantum simulation and quantum information. |