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Autori principali: Gomez, Ignacio S., Santos, Matheus Gabriel Alves, Santos, Daniela de Almeida dos, Thibes, Ronaldo
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.16748
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author Gomez, Ignacio S.
Santos, Matheus Gabriel Alves
Santos, Daniela de Almeida dos
Thibes, Ronaldo
author_facet Gomez, Ignacio S.
Santos, Matheus Gabriel Alves
Santos, Daniela de Almeida dos
Thibes, Ronaldo
contents In this work, we show a connection between superstatistics and position-dependent mass (PDM) systems in the context of the canonical ensemble. The key point is to set the fluctuation distribution of the inverse temperature in terms od the system PDM. For PDMs associated to Tsallis and Kaniadakis nonextensive statistics, the pressure and entropy of the ideal gas result lower than the standard case but maintaining monotonic behavior. Gas of non-interacting harmonic oscillators provided with quadratic and exponential PDMs exhibit a behavior of standard ED harmonic oscillator gas and a linear specific heat respectively, the latter being consistent with Nernst's third law of thermodynamics. Thus, a combined PDM-superstatistics scenario offers an alternative way to study the effects of the inhomogeneities of PDM systems in their thermodynamics.
format Preprint
id arxiv_https___arxiv_org_abs_2503_16748
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Partition function for position-dependent mass systems from superestatistics
Gomez, Ignacio S.
Santos, Matheus Gabriel Alves
Santos, Daniela de Almeida dos
Thibes, Ronaldo
Statistical Mechanics
Mathematical Physics
In this work, we show a connection between superstatistics and position-dependent mass (PDM) systems in the context of the canonical ensemble. The key point is to set the fluctuation distribution of the inverse temperature in terms od the system PDM. For PDMs associated to Tsallis and Kaniadakis nonextensive statistics, the pressure and entropy of the ideal gas result lower than the standard case but maintaining monotonic behavior. Gas of non-interacting harmonic oscillators provided with quadratic and exponential PDMs exhibit a behavior of standard ED harmonic oscillator gas and a linear specific heat respectively, the latter being consistent with Nernst's third law of thermodynamics. Thus, a combined PDM-superstatistics scenario offers an alternative way to study the effects of the inhomogeneities of PDM systems in their thermodynamics.
title Partition function for position-dependent mass systems from superestatistics
topic Statistical Mechanics
Mathematical Physics
url https://arxiv.org/abs/2503.16748