# International WORKSHOP on Emerging trends in High Energy and Condensed matter Physics"

11-12 January 2021
Asia/Kolkata timezone

## Scientific Programme

Department of Physics, GDC, Budgam, J&K, India is organizing (ONLINE) Workshop on "Emerging trends in High Energy Physics and Condensed matter Physics"

The purpose of this Workshop is to give participants an opportunity to present results and discuss various aspects of the High energy physics and Condensed matter Physics.

This meeting will allow the experts from differnt fields to exchange ideas that have over the years been at the forefront of these disciplines.

We are intending to arrange two sessions every day with three talks of 20 + 5 minutes duration. After each presentation their will be question answer session for 5 minutes (max).

TOPICS TO BE DISCUSSED

High Energy Nuclear and Particle Physics

> Strongly-interacting matter at finite temperature
> QCD phase structure at non-zero baryon density
> QCD phase diagram under strong external magnetic field
> QCD phase diagram in astrophysics
> Transport phenomena and related issues
> Experimental results and future facilities
> Theoretical ideas and experimental searches of the critical point
> Inhomogeneous phases in strongly interacting matter
> QCD phase structure with chiral imbalance
> QCD equation of state and Neutron stars
> Particle production in Heavy Ion Collisions at RHIC, LHC
> Rapidity and Transverse momentum distributions of particles at various collision              energies
>  High multiplicity phenomenon in Heavy Ion Collisions
>  Multifractal analysis of photon multiplicity distribution
>  Standard Model and beyond
>  CP violation


Cosmology

> Fundamental Theory and Cosmology. ...
> CP violation
> Critical tests of the inflationary paradigm. ...
> Gravitational waves and signatures of the early Universe. ...
> Mutability of the laws of physics. ...
> Black Holes. ...
> Other research: dark energy and dark matter.


Condensed Matter Physics

> high temperature superconductivity.
> strong correlations.
> topological phases of quantum matter.
> quantum magnetism.
> Bose-Einstein condensates.
> nanostructures.
> quantum computing.
> synthesis of new quantum materials.
> Computational Condensed matter physics
> Transport properties
> Electronic properties
> Thermodynamic properties


• ### Standard Model and Beyond

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