The magnetocaloric effect from the point of view of Tsallis non-extensive thermostatistics

TL;DR

This paper investigates the magnetocaloric effect using Tsallis non-extensive thermostatistics, analyzing how the entropy and magnetocaloric potential vary with the non-extensivity parameter q in a two-level system.

Contribution

It introduces a detailed analysis of the magnetocaloric effect within the Tsallis formalism, highlighting the impact of non-extensivity on thermodynamic properties.

Findings

Entropy varies with the Tsallis q-parameter.

Magnetocaloric potential $ S$ depends on non-extensivity.

Behavior of MCE curves is significantly affected by q-values.

Abstract

In this work we have analyzed the magnetocaloric effect (MCE) from the Tsallis thermostatistics formalism (TTF) point of view. The problem discussed here is a two level system MCE. We have calculated, both analytically and numerically, the entropy of this system as a function of the Tsallis' parameter (the well known q-parameter) which value depends on the extensivity (q<1) or non-extensivity (q>1) of the system. Since we consider this MCE not depending on the initial conditions, which classify our system as a non-extensive one, we used several greater than one q-parameters to understand the effect of the nonextensive formalism in the entropy as well as the magnetocaloric potential, $\Delta S$. We have plotted several curves that shows precisely the behavior of this effect when dealt with non-extensive statistics.