Litcius/Paper detail

Deuteron-deuteron correlation function in nucleus-nucleus collisions

Stanisław Mrówczyński, Patrycja Słoń

2021Physical review. C17 citationsDOIOpen Access PDF

Abstract

A formula of the $D\text{\ensuremath{-}}D$ correlation function is derived. The deuterons are treated either as elementary particles or as neutron-proton bound states. In the first case the deuterons are directly emitted from a source and in the second case the deuteron formation is a final-state process simultaneous with a generation of $D\text{\ensuremath{-}}D$ correlation. The source radius of deuterons formed due to final-state interactions is bigger by the factor of $\sqrt{2}$ than that of directly emitted deuterons. To check how sizable is the effect we compute the $D\text{\ensuremath{-}}D$ correlation function taking into the Bose-Einstein statistics of deuterons, the $s$-wave scattering due to the strong interaction and Coulomb repulsion. The correlation function is shown to be sensitive to the source radius for sources which are sufficiently small with rms radii smaller than 3.5 fm. Otherwise, the correlation function is dominated by the Coulomb repulsion and weakly depends on the source radius. Measurements which can make use of our finding are discussed.

Topics & Concepts

DeuteriumPhysicsRADIUSCorrelation function (quantum field theory)CoulombProtonAtomic physicsNuclear physicsBound stateScatteringNeutronFunction (biology)Quantum mechanicsBiologyComputer securityDielectricEvolutionary biologyComputer scienceElectronHigh-Energy Particle Collisions ResearchCold Atom Physics and Bose-Einstein CondensatesQuantum, superfluid, helium dynamics