Bose-Einstein Interference in the Passage of a Jet in a Dense Medium

TL;DR

This paper explores how Bose-Einstein interference affects jet propagation in dense media, leading to collective recoil phenomena that could explain certain angular correlations observed in high-energy nuclear collisions.

Contribution

It introduces a theoretical framework showing Bose-Einstein symmetry causes collective recoil of scatterers along the jet direction in high-energy collisions.

Findings

Constructive interference causes scatterers to recoil collectively.

Recoil phenomena may explain observed angular correlations.

Bose-Einstein interference influences jet-medium interactions.

Abstract

When a jet collides coherently with many parton scatterers at very high energies, the Bose-Einstein symmetry with respect to the interchange of the virtual bosons leads to a destructive interference of the Feynman amplitudes in most regions of the momentum transfer phase space but a constructive interference in some other regions of the momentum transfer phase space. As a consequence, the recoiling scatterers have a tendency to come out collectively along the incident jet direction, each carrying a substantial fraction of the incident jet longitudinal momentum. The manifestation of the Bose-Einstein interference as collective recoils of the scatterers along the jet direction may have been observed in angular correlations of hadrons associated with a high-pT trigger in high-energy heavy-nuclei collisions at RHIC and LHC.