Evolution of heavy quark distribution function in quark-gluon plasma:   using the Iterative Laplace Transform Method

Sharareh Mehrabi Pari; Kurosh Javidan; Fatemeh Taghavi Shahri

arXiv:1506.08646·hep-ph·July 7, 2015

Evolution of heavy quark distribution function in quark-gluon plasma: using the Iterative Laplace Transform Method

Sharareh Mehrabi Pari, Kurosh Javidan, Fatemeh Taghavi Shahri

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TL;DR

This paper applies the Iterative Laplace Transform Method to solve the Fokker-Planck equation, modeling the evolution of heavy quark distributions in quark-gluon plasma, and compares results with experimental data.

Contribution

It introduces the use of the Iterative Laplace Transform Method for solving the Fokker-Planck equation in this context, providing a new computational approach.

Findings

01

Results agree well with PHENIX experimental data.

02

The method effectively models heavy quark evolution.

03

Calculations of nuclear suppression factor RAA are achieved.

Abstract

The "Iterative Laplace Transform Method" is used to solve the Fokker-Planck equation for finding the time evolution of the heavy quarks distribution functions such as charm and bottom in quark gluon plasma. These solutions will lead us to calculation of nuclear suppression factor RAA. The results have good agreement with available experiment data from the PHENIX collaboration.

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