Spin Squeezing of One-Axis Twisting Model in The Presence of Phase Dephasing

Abstract

We present a detailed analysis of spin squeezing of the one-axis twisting model with a many-body phase dephasing, which is induced by external field fluctuation in a two-mode Bose-Einstein condensates. Even in the presence of the dephasing, our analytical results show that the optimal initial state corresponds to a coherent spin state |θ0, φ0 with the polar angle θ0=π/2. If the dephasing rate γ S-1/3, where S is total atomic spin, we find that the smallest value of squeezing parameter (i.e., the strongest squeezing) obeys the same scaling with the ideal one-axis twisting case, namely 2 S-2/3. While for a moderate dephasing, the achievable squeezing obeys the power rule S-2/5, which is slightly worse than the ideal case. When the dephasing rate γ>S1/2, we show that the squeezing is weak and neglectable.