Phase behaviors and dynamics of active particle systems in double-well potential

Abstract

In this paper, we investigate the phase behaviors and dynamics of self-propelled particles with active reorientation in double-well potential. We observe the self-propelled particles exhibit flocking and clustering in an asymmetric potential trap. By MD simulations, we obtain a phase diagram of flocking with active reorientation and potential asymmetry as parameters. We compare the responses of inactive and active particles to the potential. It shows that active reorientation of particles amplifies the degree of aggregation on one side in the asymmetric potential well. Furthermore, we calculate the mean squared displacement and identify distinct diffusion regimes. These results highlight active particles with active reorientation exhibit greater sensitivity in double-well potentials.