Sensitivity of Jet Observables to Moli\`ere Scattering Off Quasiparticles in Quark-Gluon Plasma

TL;DR

This paper investigates how Molière scatterings of jet partons off quasiparticles in quark-gluon plasma affect jet observables, providing a full calculation and implementation in the Hybrid Model to identify potential experimental signatures.

Contribution

It presents a comprehensive calculation of Molière scattering effects on jets in QGP and integrates this into the Hybrid Model to study observable modifications.

Findings

Molière scatterings broaden jet shape and girth distributions.

Photon-tagged jets enhance sensitivity to large-angle scatterings.

Results suggest distinctive signatures of hard parton-quasiparticle scatterings in QGP.

Abstract

Quark-gluon plasma (QGP) is a strongly coupled liquid when viewed at length scales of order the inverse of its temperature and longer. However, when it is probed at short enough length scales, asymptotic freedom mandates the presence of quark- and gluon-like quasiparticles. Partons in jets can trigger perturbative, high momentum-exchange $2\rightarrow2$ Moli\`ere scatterings off quasiparticles in the medium, making jets useful probes of the microscopic structure of QGP. Prior to this work, soft strongly coupled momentum-exchanges between jet partons and the QGP droplet produced in a heavy-ion collision, as well as the wakes that jets excite in the droplet, had been accounted for in the Hybrid Model of jet quenching. Here, we present a full calculation of Moli\`ere scattering off a QGP quasiparticle which results in the deflection of the jet parton and the excitation of a parton from the thermal medium that recoils after being kicked, and describe how it is implemented in the Hybrid Model. The scattered jet and recoil partons continue to propagate through the QGP, lose energy and momentum, excite wakes, and may further re-scatter. Using the Hybrid Model, we study how Moli\`ere scatterings impact jet shapes and fragmentation functions, the Soft Drop angle $R_g$, jet girth $g$, and observables that focus on the number and angular distribution of subjets within jets. We demonstrate that photon-tagged jets provide a particularly sensitive probe: selecting events by the photon energy mitigates the selection bias inherent in inclusive jet measurements and enhances sensitivity to rare large-angle scatterings. We find that Moli\`ere scatterings broaden both the $R_g$ and $g$ distributions when jets significantly softer than the photon are included. Our results point the way towards distinctive model-independent experimental signatures of hard scattering of jet partons off quasiparticles in QGP.