SAHA INSTITUTE OF NUCLEAR PHYSICS

Department of Atomic Energy, Govt. of India

- Neutrino Physics.
- Baryogenesis.

- Gravitational Waves & Multi-messenger Astronomy, High Energy Astrophysics
- Physics & Astrophysics of Compact Objects: Neutron Stars and Black Holes
- Equation of State of Neutron Stars and Nuclear Matter

- Quantum Field Theories on and off the lattice.
- Quantum Link Models and Qubit Regularizations.
- Classical and Quantum Simulations of strongly interacting systems.
- Thermalization and real-time dynamics of gauge theories.

- Microscopic description of giant multipole resonances based on the fully self-consistent Hartree-Fock & random phase approximation

- Quantum integrable field models and spin chains
- Fractional statistics in exactly solvable models
- Quantum groups and Yangians
- Non-hermitian Hamiltonians with real spectrum

- High-energy phenomenology within and beyond the Standard Model.

- Nonequilibrium statistical mechanics
- soft matter systems
- physics of biological systems
- field theory

- study of strongly correlated systems
- disordered electron systems
- many-body localization and thermalization
- high temperature superconductivity and transport in correlated electron systems.

- Quantum field theory
- Quantum gravity

- Quantum aspects of black holes
- Quantum field theory
- Mathematical physics.

- String theory
- Quantum Field Theory
- Gauge-gravity duality and its applications to strongly coupled systems.

- Perturbative QCD
- Physics beyond the Standard Model

- Physics of Quark Gluon Plasma:
- Relativistic Heavy Ion Collisions
- Electromagnetic Probes
- Finite Temperature QCD
- Strange Quark Matter and Strangelets

- Condensed Matter Physics
- Material Science
- Nanoscience

- String theory
- Supergravity