Conveners
Session 19: Heavy Flavour and Electromagnetic Probes
- Takahiro Miyoshi (Hiroshima University (JP))
Pingal Dasgupta
(Variable Energy Cyclotron Centre, Kolkata)
18/02/2016, 16:10
Parallel
The upcoming Future Circular Collider (FCC) facility at CERN is aimed to study P+P collisions at centre of mass energy 100 TeV, which is about 7 times higher than the top LHC energy for P+P collisions. Heavy-ion collision at FCC (Pb+Pb at $\sqrt{s_{NN}}$= 39TeV) is expected to produce initial states having much larger initial temperature and energy density than those produced at LHC and RHIC...
Umme Jamil
(Debraj Roy College, Golaghat, Assam)
18/02/2016, 16:30
Parallel
Heavy flavours are produced in the initial stage of relativistic heavy ion collisions. While traversing the quark gluon plasma, they will loose energy by colliding with quarks and gluons and also by radiating gluons. After their production, they may get fragmented into heavy mesons by picking up light quarks/antiquarks and in turn may decay through leptonic channels. These leptons would carry...
Souvik Priyam Adhya
(Saha Institute of Nuclear Physics, Kolkata)
18/02/2016, 16:50
Parallel
In this work, the self energies of $\pi^{0}$ and $\pi^{\pm}$ up to one loop order have been calculated in the limit of weak external magnetic field. The effective masses get an explicit magnetic field dependence which are modified significantly for the pseudoscalar coupling due to weak field approximation of the external field. However, for the pseudovector coupling, only a modest reduction...
Mohammed Younus
(Variable Energy Cyclotron Centre)
18/02/2016, 17:10
Parallel
Charm quarks are mostly produced in the pre-equilibrium phase of relativistic heavy ion collisions and primarily due to prompt gluon fusion and interactions among high energy partons. The produced charm quarks undergo modification while moving through quark gluon plasma. Consequently studies of charm spectra via its mesonic channels and their decay product give information on the medium...
