The use of μ-Bose gas model for effective modeling of dark matter

Abstract

For the recently introduced μ-deformed analog of Bose gas model (μ-Bose gas model), its thermodynamical aspects e.g. total number of particles and the partition function are certain functions of the parameter μ. This basic μ-dependence of thermodynamics of the μ-Bose gas arises through the so-called μ-calculus, an alternative to the known q-calculus (Jackson derivative, etc.), so we include main elements of μ-calculus. Likewise, virial expansion of EOS and virial coefficients, the internal energy, specific heat and the entropy of μ-Bose gas show μ-dependence. Herein, we study thermodynamical geometry of μ-Bose gas model and find the singular behavior of (scalar) curvature, signaling for Bose-like condensation. The critical temperature of condensation T(μ)c depending on μ is given and compared with the usual Tc, and with known Tc(p,q) of p,q-Bose gas model. Using the results on μ-thermodynamics we argue that the condensate of μ-Bose gas, like the earlier proposed infinite statistics system of particles, can serve for effective modeling of dark matter.