Conveners
Section 1: High energy nuclear and particle physics (Theory)
- Trambak Bhattacharyya (Joint Institute for Nuclear Research)
Section 1: High energy nuclear and particle physics
- Victor Braguta (JINR)
Section 1: High energy nuclear and particle physics
- Harleen Dahiya (Dr. B.R. Ambedkar National Institute of Technology, Jalandhar)
The study employs second-order viscous hydrodynamics with an equation of state featuring an embedded critical point to study the propagation of linear and nonlinear perturbations in the quark-gluon plasma (QGP). Notably, perturbations dissipate significantly when the QGP approaches the critical point. Consequently, the mach cone effects on away side jet particle correlations vanish. The...
A Dual QCD formulation for SU(3) color gauge has been developed in terms of dual gauge potentials and taking into account the local as well as topological structure of the color gauge group into its dynamics. For the purpose of examining the nonperturbative characteristics of
QCD, the dynamical configuration of the resulting dual QCD vacuum and its flux tube configuration have been examined....
Investigating the properties of a non-extensive quantum chromodynamics (QCD) medium, created in heavy-ion collisions (HICs) is one of the most important topics. In this talk, we discuss some of the important properties of this particular medium like phase transitions etc in the presence of extreme conditions. We further talk about the effect of the nonextensive measure on the system's properties.
One of the basic building blocks of the universe is protons, whose constituent particles are quarks and gluons. Gluons are the exchange particles for the strong force between quarks; we never found them in isolation. Recently in 2018, Burkert et al. [1] found very interesting pressure distributions inside the proton, whose peak value can reach up to 1035 pascals, which is even greater than the...
We adopted the light-front holographic QCD approach for investigating diffractive vector meson production in electron-proton collisions at HERA. Specifically, our study focuses on Rho (ρ) and Phi (ϕ) vector meson production. Our findings involves developing holographic wave functions that capture the internal structure and dynamics of these vector mesons, incorporating non-perturbative QCD...
We have addressed that during the transition from zero to finite rotation picture, a transition from isotropic to anisotropic nature of shear viscosity coefficients can be found due to Coriolis force as expected due to Lorentz force at a finite magnetic field in earlier studies on the topics of relativistic matter like quark-gluon plasma. We have done it for non-relativistic matters for...
Rotating quarks and hadronic systems, produced in peripheral heavy ion collisions, can experience Coriolis force and other forces due to rotational motion. Considering only the effect of Coriolis force, we have calculated the electrical conductivity for non-relativistic rotating matter using the Relaxation Time Approximation based Boltzmann transport equation. A similarity in mathematical...
