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Autori principali: Gonzalez, Matias P., Lineros, Roberto A.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.16487
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author Gonzalez, Matias P.
Lineros, Roberto A.
author_facet Gonzalez, Matias P.
Lineros, Roberto A.
contents We generalize thermal WIMP (Weakly Interacting Massive Particle) freeze-out within Tsallis nonextensive statistics. Using Curado-Tsallis $q$-distributions $f_q(E;μ,T)$ we compute $q$-deformed number and energy densities, pressure, entropy density and Hubble rate, $\{n_q,ρ_q,P_q,s_q,H_q\}$. The Boltzmann equation is generalized accordingly to obtain the comoving abundance $Y_{χ,q}(x)$ and relic density $Ω_{χ,q}h^2$ for a dark-matter candidate $χ$ in a model-independent setup. The thermally averaged cross section is expanded as $\langleσv\rangle_q \approx a + b\,\langle v_{\rm rel}^2\rangle_q$ up to $p$-wave. The freeze-out parameter $x_f(q)$ is determined from $Γ_{{\rm ann},q}(T_f)\simeq H_q(T_f)$ using a $q$-logarithmic inversion, with the expansion rate modified through ultra-relativistic rescalings $R_ρ(q)$ of the effective relativistic degrees of freedom $g_*$ and $g_{*s}$. We show that $x_f$ increases with $q$ and that QCD-threshold features propagate into $Y_{χ,q}(x)$ and $Ω_{χ,q}h^2$. We then perform two $q$-grid scans: fixing $\langleσv\rangle_q$ while varying the dark-matter mass $m_χ$, and fixing $m_χ$ while varying the $s$-wave coefficient $a$. For an $s$-wave dominated scenario we construct $χ^2$ profiles in these planes by comparing $Ω_{χ,q}h^2$ with the Planck benchmark $Ω_c h^2 = 0.120\pm 0.001$. In both cases we find a clear degeneracy in the preferred nonextensive parameter $q_{\rm best}$ along valleys in parameter space. However, fixed-mass scans (varying $\langleσv\rangle_q$) are significantly more constraining than fixed-cross-section scans, reflecting that $Ω_{χ,q}h^2$ is mainly controlled by $\langleσv\rangle_q$, so that for realistic cross sections the best-fit $q_{\rm best}$ remains close to the extensive limit $q\to 1$.
format Preprint
id arxiv_https___arxiv_org_abs_2511_16487
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle WIMP Freeze-out dynamics under Tsallis statistics
Gonzalez, Matias P.
Lineros, Roberto A.
High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
We generalize thermal WIMP (Weakly Interacting Massive Particle) freeze-out within Tsallis nonextensive statistics. Using Curado-Tsallis $q$-distributions $f_q(E;μ,T)$ we compute $q$-deformed number and energy densities, pressure, entropy density and Hubble rate, $\{n_q,ρ_q,P_q,s_q,H_q\}$. The Boltzmann equation is generalized accordingly to obtain the comoving abundance $Y_{χ,q}(x)$ and relic density $Ω_{χ,q}h^2$ for a dark-matter candidate $χ$ in a model-independent setup. The thermally averaged cross section is expanded as $\langleσv\rangle_q \approx a + b\,\langle v_{\rm rel}^2\rangle_q$ up to $p$-wave. The freeze-out parameter $x_f(q)$ is determined from $Γ_{{\rm ann},q}(T_f)\simeq H_q(T_f)$ using a $q$-logarithmic inversion, with the expansion rate modified through ultra-relativistic rescalings $R_ρ(q)$ of the effective relativistic degrees of freedom $g_*$ and $g_{*s}$. We show that $x_f$ increases with $q$ and that QCD-threshold features propagate into $Y_{χ,q}(x)$ and $Ω_{χ,q}h^2$. We then perform two $q$-grid scans: fixing $\langleσv\rangle_q$ while varying the dark-matter mass $m_χ$, and fixing $m_χ$ while varying the $s$-wave coefficient $a$. For an $s$-wave dominated scenario we construct $χ^2$ profiles in these planes by comparing $Ω_{χ,q}h^2$ with the Planck benchmark $Ω_c h^2 = 0.120\pm 0.001$. In both cases we find a clear degeneracy in the preferred nonextensive parameter $q_{\rm best}$ along valleys in parameter space. However, fixed-mass scans (varying $\langleσv\rangle_q$) are significantly more constraining than fixed-cross-section scans, reflecting that $Ω_{χ,q}h^2$ is mainly controlled by $\langleσv\rangle_q$, so that for realistic cross sections the best-fit $q_{\rm best}$ remains close to the extensive limit $q\to 1$.
title WIMP Freeze-out dynamics under Tsallis statistics
topic High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2511.16487