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Connecting fluctuation measurements in heavy-ion collisions with the grand-canonical susceptibilities

Volodymyr Vovchenko, Oleh Savchuk, Roman V. Poberezhnyuk, M. I. Gorenstein, Volker Koch

2020Physics Letters B68 citationsDOIOpen Access PDF

Abstract

We derive the relation between cumulants of a conserved charge measured in a subvolume of a thermal system and the corresponding grand-canonical susceptibilities, taking into account exact global conservation of that charge. The derivation is presented for an arbitrary equation of state, with the assumption that the subvolume is sufficiently large to be close to the thermodynamic limit. Our framework – the subensemble acceptance method (SAM) – quantifies the effect of global conservation laws and is an important step toward a direct comparison between cumulants of conserved charges measured in central heavy ion collisions and theoretical calculations of grand-canonical susceptibilities, such as lattice QCD. As an example, we apply our formalism to net-baryon fluctuations at vanishing baryon chemical potentials as encountered in collisions at the LHC and RHIC.

Topics & Concepts

PhysicsGrand canonical ensembleCumulantLarge Hadron ColliderBaryon numberBaryonFormalism (music)Quantum chromodynamicsCharge conservationStatistical physicsConservation lawCanonical ensembleHadronThermodynamic limitCharge (physics)Conserved quantityQuantum electrodynamicsParticle physicsQuantum mechanicsMonte Carlo methodMathematicsMusicalVisual artsStatisticsArtHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studies
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