Research Projects

Quantum Transport through Topological Insulator thin films
Quantum transport through Topological Insulators helps to shed light on the effect of QAH.
- Quantum Transport through Topological Insulator thin films
- Magnetic Properties in Topological insulators
- Optical Conductivity in Driven Bilayer Graphene
- Screening and charge transport in Phosphorene
Magnetic Properties in Topological insulators
Magnetic coupling between impurities on Topological Insulators leads to understand the physics behind strong ferromagnetism in QAH insulators doped by magnetic impurities.
Optical Conductivity in Driven Bilayer Graphene
Optical Conductivity of Bilayer Graphene under Infra-Red illumination of a Laser is studied.
Screening and charge transport in Phosphorene
Quantum Transport in the presence of electron-electron interaction is studied in Phosphorene

Research

Quantum Transport and magnetic properties of Topological insulators- Ordered and disordered
Non-Equilibrium Electronic Transport through Mesoscopic systems
Quantum transport through monolayer and bilayer graphene, phosphorene, and other new 2D materials, and also topological-insulator thin films
Anderson Localization and localization properties in disordered systems
Transport through Driven systems: spin and charge pumping