Open Heavy Flavor Dynamics: T-dependent drag and Initial Magnetic Field

Abstract Simultaneous description of heavy quark nuclear modification factor R AA and the elliptic flow v 2 is a top challenge for all the existing models. We highlight how the temperature dependence of the energy loss/transport coefficients is responsible for addressing a large part of such a puzzle along with the full solution of the Boltzmann collision integral for the momentum evolution of heavy quarks in the medium. At the same time Ultra-relativistic Heavy-Ion Collision (HIC) also generates very strong initial magnetic field ( B → ). The high B → influences the evolution dynamics that is opposed by the large Faraday current due to electric field generated by the time varying B → . Since the heavy quark are produced at the early stage of HICs, we argue that their dynamics will be affected by such a strong magnetic field and we demonstrate that the directed flow, v 1 , of heavy quarks is a superior probe to estimate the magnetic field generated in non-central HICs