| Talk | ||||||
| Title | Gradient Tomography of Jet Quenching in Heavy-ion Collisions | |||||
| Video |
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| Author(s) | Wang, Xin-Nian (speaker) (CCNU/LBNL) | |||||
| Corporate author(s) | CERN. Geneva | |||||
| Imprint | 2020-06-04. - 1245. | |||||
| Series | (Conferences) (10th International Conference on Hard and Electromagnetic Probes of High-Energy Nuclear Collisions) | |||||
| Lecture note | on 2020-06-04T12:30:00 | |||||
| Subject category | Conferences | |||||
| Abstract | Transverse momentum broadening and energy loss of a propagating parton are dictated by the space-time profile of the jet transport coefficient $\hat q$ in dense QCD medium. Spatial gradient of $\hat q$ perpendicular to the propagation direction can lead to a drift and asymmetry in parton transverse momentum distribution. Such an asymmetry depends on both the spatial position along the transverse gradient and path length of a propagating parton as shown by numerical solutions of the Boltzmann transport in the simplified form of a drift-diffusion equation. In high-energy heavy-ion collisions, this asymmetry with respect to a plane defined by the beam and trigger particle (photon, hadron or jet) with a given orientation relative to the event plane is shown to be closely related to the transverse position of the initial jet production in full event-by-event simulations within the linear Boltzmann transport model. Such a gradient tomography can be used to localize the initial jet production position for more detailed study of jet quenching and properties of the quark-gluon plasma along a given propagation path in heavy-ion collisions. | |||||
| Copyright/License | © 2020-2024 CERN | |||||
| Submitted by | [email protected] | |||||
ჩანაწერი შექმნილია 2020-06-25, ბოლოს შესწორებულია 2024-06-26
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