research

My research interests lie in quantum information theory and its significance in fundamental physics. My research focuses on the ultimate limits that quantum theory imposes on information processing and how to harness physical phenomena to achieve physical and computing tasks that would otherwise be impossible. I am fascinated by what physical processes and orders are possible in the quantum world compared to the classical one. 

For a detailed explanation of our group activities, please visit our group website

Topics of research I have been particularly interested in are quantum phase transitions, theory of entanglement, topological quantum computing, quantum information in open systems, theory of quantum and topological orders and novel quantum materials, emergent gauge fields and quantum gravity from many-body theory,  quantum statistical mechanics, the onset of quantum chaos and thermalization in many-body quantum systems, integrability and exact solvability, away from equilibrium dynamics and coherence in quantum evolutions, thermalization and equilibration,  thermodynamics and information processing in black holes.