Please use this identifier to cite or link to this item: https://biore.bio.bg.ac.rs/handle/123456789/369
Title: Dynamical energy loss formalism: from describing suppression patterns to implications for future experiments
Authors: Djordjevic, Magdalena
Zigic, Dusan
Blagojevic, Bojana
Auvinen, Jussi
Salom, Igor
Đorđević, Marko 
Keywords: energy loss;hard probes;heavy flavor;quark-gluon plasma;relativistic heavy ion collisions
Issue Date: 1-Feb-2019
Rank: M22
Journal: Nuclear Physics A
Abstract: 
© 2018 We overview our recently developed DREENA-C and DREENA-B frameworks, where DREENA (Dynamical Radiative and Elastic ENergy loss Approach) is a computational implementation of the dynamical energy loss formalism; C stands for constant temperature and B for the medium evolution modeled by Bjorken expansion. At constant temperature our predictions overestimate ν2, in contrast to other models, but consistent with simple analytical estimates. With Bjorken expansion, we obtain good agreement with both RAA and ν2 measurements. We find that introducing medium evolution has a larger effect on ν2 predictions, but for precision predictions it has to be taken into account in RAA predictions as well. We also propose a new observable, which we call path length sensitive suppression ratio, for which we argue that the path length dependence can be assessed in a straightforward manner. We also argue that Pb + Pb vs. Xe + Xe collisions make a good system to assess the path length dependence. As an outlook, we expect that introduction of more complex medium evolution (beyond Bjorken expansion) in the dynamical energy loss formalism can provide a basis for a state of the art QGP tomography tool – e.g. to jointly constrain the medium properties from the point of both high-p⊥ and low-p⊥ data.
URI: https://biore.bio.bg.ac.rs/handle/123456789/369
ISSN: 0375-9474
DOI: 10.1016/j.nuclphysa.2018.10.020
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