Assistant Professor


Research Area \ Research Statement \ Research Group Info

 

Research Areas

High-Energy Nuclear Physics · Relativistic Heavy-Ion Collisions · QCD Matter & Phase Diagram · Transport Model Simulations  · Detector Physics · Computational Data Analysis

Research Statement

My research explores the properties of strongly interacting matter under extreme temperature and baryon density through relativistic heavy-ion collisions. I work on transport model simulations and data analysis to investigate particle production, collective flow, and signatures of the QCD phase transition within the CBM experiment at FAIR and the ALICE experiment at CERN. My research is computationally driven and carried out through active national and international collaborations.

Research Group

The group focuses on simulation- and data-driven studies of heavy-ion collisions, contributing to the CBM (FAIR) and ALICE (CERN) collaborations. Research includes event generation, flow and fluctuation analysis, and detector performance studies using high-performance computing tools. Opportunities are available for M.Sc. and Ph.D. students interested in computational and data-intensive physics research.