Quench dynamics of a two-body system with interaction in a three-dimensional harmonic trap

• 1、School of Science, Beijing University of Posts and Telecommunications, Beijing 100876
• 2、International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871

Abstract：In this paperwe study the quench dynamics of a two-body system with interaction in a three-dimensional harmonic trap. The strength of the interaction between two ultracold atoms is characterized by the s-wave scattering length, which can be instantaneously changed via the Feshbach resonance.By instantly changing the strength of interatomic interactions, we observe the evolution of the average relative distance between two atoms as a function of time.The results show that the average relative distance between two atoms in a given range of scattering lengths oscillates in a bi-periodic manner with respect to time. We analyze that the superposition of the first three eigenstates is the main cause of the doubleperiodic oscillations, and it is concluded that the difference between the first and second eigenenergies and the small oscillation period are inversely related in a certain scattering length range.Finally, we analyze the evolution of Tan\'s contact with time, whose oscillation period contains multiple components of intrinsic energy level differences.

Keywords： ultracold atoms dynamics s-wave scattering length double-period oscillation Contact