Phase diagram of a strongly interacting polarized Fermi gas in one dimension;

The influence of Kerr medium on the intrinsic decoherence under the condition of existence of dipole-dipole interaction

The dipole-dipole interaction of the two atoms is discussed.

The numerical results indicate that the quantum field entropy in the system is periodic oscillation with two peaks′ or many peaks′ structures;The quantum entanglement between the atoms decreases with the increase of the dipole-dipole interaction strength between them;The amplitude of the field quantum entropy decreases with the increase of the probability of the.

The result shows that when the two atoms are in the different states, the couplingstrength of the atoms and cavity field and the strength of the dipole interaction arethe same, the entanglement between the two atoms increase with the increasing ofthe particle number is zero, the two atoms can not reach the maximal entanglement.

Monte Carlo simulation is used to study the magnetic properties of magnetic monolayer films with an Ising_like model in which the exchange interaction and dipolar interaction are considered.

Base on the Monte-Carlo simulation,the effect of exchange interaction constant Jex,dipolar interaction constant D and magnetic anisotropy constant K on magnetization curves,spin configuration of quantum dots are studied.