The 14th Workshop on QCD Phase Transition and Relativistic Heavy-Ion Physics (QPT 2021)

Kinematics dependent jet transport coefficient in cold nuclear matter

Not scheduled

15m

Conference Hall (Shangshan Hotel, Building 9)

Speaker

Dr Peng Ru (South China Normal University)

Description

Extracting the non-perturbative transport coefficient $\hat q$ is an important approach to quantify the nuclear medium property probed by the jets traversing the medium. Electron-nucleus (eA) and proton-nucleus (pA) collisions provide a clean environment to delicately study the jet transport coefficient in cold nuclear matter and to test the theoretical framework of jet-medium interaction, and may in turn be instructive for the study of quark-gluon plasma (QGP). Within the theoretical framework of the higher-twist expansion, we perform the first global extraction of the $\hat q$ in cold nuclear matter from the experimental data mainly on various types of transverse momentum broadening in eA and pA collisions. Our global analysis suggests a universal $\hat q$ in cold nuclear matter as a function of Bjorken $x$ and probing scale $Q^2$. Moreover, this kinematic dependence can be converted into the jet energy dependence, which is of great interest in the study of jet quenching in QGP. Utilizing the extracted $\hat q(x,Q^2)$ and its uncertainty determined from a Hessian analysis, we further study relevant observables in future experiments of electron-ion collisions (EIC), including the transverse momentum broadening for single hadron and heavy-quarkonium ($J/\psi$) productions, as well as the nuclear enhancement of the transverse momentum imbalance for di-hadron and heavy-meson ($D\bar D$) pair productions. The future EIC is expected to provide a more precise understanding of the kinematic dependence of the $\hat q$ in cold nuclear matter due to the wide kinematic coverage and high-precision measurements.