4.7 Article

Multi-partonic medium induced cascades in expanding media

期刊

EUROPEAN PHYSICAL JOURNAL C
卷 82, 期 1, 页码 -

出版社

SPRINGER
DOI: 10.1140/epjc/s10052-021-09950-8

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资金

  1. Trond Mohn Foundation [BFS2018REK01]
  2. University of Bergen
  3. European Union's Horizon 2020 research and innovation program [82409]
  4. Xunta de Galicia (Centro de investigacion de Galicia accreditation 2019-2022)
  5. European Union ERDF
  6. Spanish Research State Agency by Maria de Maeztu Units of Excellence program [MDM-2016-0692, FPA2017-83814-P]
  7. European Research Council [ERC-2018-ADG-835105 YoctoLHC]
  8. Grant Agency of the Czech Republic [18-12859Y]
  9. Ministry of Education, Youth and Sports of the Czech Republic [LTT 17018]
  10. Charles University [UNCE/SCI/013]
  11. Polish National Science Centre [DEC-2017/27/B/ST2/01985]

向作者/读者索取更多资源

Going beyond simplified gluonic cascades, this study introduces both gluon and quark degrees of freedom for partonic cascades within the medium. Numerical solutions are obtained for the coupled evolution equations, considering different types of media, to obtain medium-modified parton spectra for quark and gluon initiated jets. Using these results, inclusive jet R-AA is calculated and the rapidity and path-length dependence are examined. Sensitivity analysis is performed on observables including nuclear modification of parton distribution functions, plasma-like emissions, and the onset of quenching. All calculations are compared with recent measurements.
Going beyond the simplified gluonic cascades, we introduce both gluon and quark degrees of freedom for partonic cascades inside the medium. We then solve the set of coupled evolution equations numerically with splitting kernels calculated for static, exponential, and Bjorken expanding media to arrive at medium-modified parton spectra for quark and gluon initiated jets. Using these, we calculate the inclusive jet R-AA where the phenomenologically driven combinations of quark and gluon jet fractions are included. Then, the rapidity dependence of the jet R-AA is examined. We also study the path-length dependence of jet quenching for different types of expanding media by calculating the jet v(2). Additionally, we study the sensitivity of observables on effects from nuclear modification of parton distribution functions, vacuum-like emissions in the plasma, and the time of the onset of the quenching. All calculations are compared with recently measured data.

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