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Paper detail

Finite volume and magnetic field effects on the two-pion correlation function in relativistic heavy-ion collisions

We study the combined effects of a finite volume and an external magnetic field on the charged two-pion correlation function. For these purposes, we consider a dilute system of pions where the finite volume effects are introduced computing the pion wave functions with rigid boundary conditions in a cylindrical geometry in the presence of a uniform and constant magnetic field. We find that for slow pions, namely, for the case where the average pair momentum is small, the correlation function shows a large distortion, as opposed to the case where the average pair momentum is large. For a finite density system, the intercept of the correlation function is reduced, signaling the increasing importance of the pion ground state contribution. An increasing strength of the magnetic field reduces the importance of the ground state and the intercept becomes closer to 2.

preprint2022arXivOpen access
Alejandro AyalaSantiago Bernal-LangaricaCristian Villavicencio
hep-phnucl-th
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Alejandro AyalaSantiago Bernal-LangaricaCristian Villavicencio

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