Litcius/Paper detail

Effect of a magnetic field on the thermodynamic properties of a high-temperature hadron resonance gas with van der Waals interactions

Bhagyarathi Sahoo, Kshitish Kumar Pradhan, Dushmanta Sahu, R. Sahoo

2023Physical review. D/Physical review. D.16 citationsDOIOpen Access PDF

Abstract

We study the behavior of a hadronic matter in the presence of an external magnetic field within the van der Waals hadron resonance gas model, considering both attractive and repulsive interactions among the hadrons. Various thermodynamic quantities like pressure ($P$), energy density ($ϵ$), magnetization ($\mathcal{M}$), entropy density ($s$), squared speed of sound (${c}_{\mathrm{s}}^{2}$), and specific-heat capacity at constant volume (${c}_{v}$) are calculated as functions of temperature ($T$) and static finite magnetic field ($eB$). We also consider the effect of baryochemical potential (${\ensuremath{\mu}}_{B}$) on the above-mentioned thermodynamic observables in the presence of a magnetic field. Further, we estimate the magnetic susceptibility (${\ensuremath{\chi}}_{\mathrm{M}}^{2}$), relative permeability (${\ensuremath{\mu}}_{\mathrm{r}}$), and electrical susceptibility (${\ensuremath{\chi}}_{\mathrm{Q}}^{2}$) which can help us to understand the system better. Through this model, we quantify a liquid-gas phase transition in the $T\ensuremath{-}eB\ensuremath{-}{\ensuremath{\mu}}_{B}$ phase space.

Topics & Concepts

van der Waals forceHadronPhysicsHeat capacityInternal energyCondensed matter physicsMagnetic fieldObservableMagnetizationPhase transitionVan der Waals equationThermodynamicsParticle physicsQuantum mechanicsMoleculeHigh-Energy Particle Collisions ResearchQuantum, superfluid, helium dynamicsCold Atom Physics and Bose-Einstein Condensates