Thoroughly analysis of the phase diagram for the Bell-Lavis model: An entropic simulational study

Abstract

In this work, we investigate the Bell-Lavis model using entropic simulations for several values of the energy parameters. The T×μ phase diagram and the ground state configurations are analyzed thoroughly. Besides, we examine the particle density and specific heat behavior for different values of the chemical potential μ as functions of temperature. We also obtain configurations that maximize the canonical probability for several values of chemical potential and temperature, enabling the identification of the low density (LDL) and high-density liquid (HDL) phases, among others, in the critical regions. We found a second-order phase transition from the LDL-HDL0 to LDL-HDL coexistence in the range of 0<μ<1.05503. In the 1.05503<μ<1.48024 range, the transition between the LDL-HDL0 and LDL-HDL0-empty coexistence presents discontinuous and continuous transitions characteristics. Finally, for 1.48024<μ<1.5, the phase transition between LDL and empty phases is of first-order.