Phase diagram of bosonic matter with additional derivative interaction

Abstract

Equation of state of uncharged bosonic matter is studied within a field-theoretical approach in the mean-field approximation. Interaction of bosons is described by a scalar field σ with a Skyrme-like potential which contains both attractive and repulsive terms. Additionally we introduce the derivative interaction by including factor (1+λσ)-1 in the kinetic part of Lagrangian where λ > 0 is the model parameter. Numerical calculations are made for strongly interacting matter composed of α particles. It is shown that ground-state binding energy and equilibrium density of such matter drop with increasing λ. The liquid-gas phase transition and the Bose-Einstein condensation are studied by using different thermodynamic variables. We calculate also spinodal lines which give boundaries of metastable states. It is demonstrated that critical temperature decreases with λ. Both LGPT and bound condensate states disappear above certain maximum value of λ.

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