Photon-photon correlations in Ag+Ag collisions at √S_NN = 2.55 GeV

Warsaw University of Technology, 00-662 Warsaw, Poland

^* e-mail: mateusz.grunwald.dokt@pw.edu.pl

Published online: 16 February 2024

Abstract

Abstract. Photons, as penetrative probes, can deliver information about early stages of heavy-ion collisions, in contrast to hadrons, whose kinematics are determined after the freeze-out era. Given that, they provide access to quantities inaccessible for many other particle species. However, due to technical challenges of photon detection and dominance of photons from particle decays, exploiting their properties requires significant effort. Femtoscopy, a technique used to investigate the space-time characteristics of the source area, is sensitive to the emission sequence of studied particles. Hence, it can be utilized as a tool to separate photons originating from different sources. Studying femto-scopic correlations of photons can offer a new and unique perspective on source parameters before kinematic freeze-out. Using data from Ag+Ag collisions at √S_NN = 2.55 GeV, collected by the HADES spectrometer, a preliminary study of photon-photon correlations was performed.