Photon pair distributions and event-mixing at low invariant mass

TL;DR

This paper investigates photon pair distributions in high-energy proton-proton collisions, revealing that conventional event-mixing methods inadequately model the background near meson masses due to parton fragmentation correlations.

Contribution

It demonstrates the limitations of standard event-mixing techniques in modeling photon pair backgrounds at low invariant mass in simulated collisions.

Findings

Event-mixing fails to accurately describe the background shape.

Parton fragmentation correlations significantly affect the background.

Standard methods may need refinement for precise meson measurements.

Abstract

Neutral meson cross-section and direct photon HBT measurements in high energy pp, pA, and AA collisions rely on either subtracting or dividing out the background underlying the $M_\mathrm{inv}$ or $Q_\mathrm{inv}$ distributions. In this paper we investigate the photon pair distributions for simulated proton-proton collisions at $\sqrt{s}=13~$TeV, and study why the background in $M_\mathrm{inv}$ gets poorly described by the conventional event-mixing method implemented in experimental analyses. We show that it fails to describe the background as it gives a qualitatively different shape especially at invariant masses around the $\pi^{0}$ and $\eta$ meson mass, which is mainly caused by the correlations originating from parton fragmentation.