A quantum information theorist trying to bridge the gap between the theory of quantum computation and its practical implimentation.
- Ph.D. in Theoretical Physics Aug 2012 - May 2018
- Harish-Chandra Research Institute (HRI), Prayagraj, India
- Degree awarded by Homi Bhabha National Institute]
- PhD Thesis Title: Effects of Disorder on Nonclasicality in Many-Body Systems
- Master of Science in Physics Jul 2010 - May 2012
- Indian Institute of Technology Bombay (IIT Bombay), Mumbai, India
- MSc Thesis Title: Generalization of Quantum Search Algorithm
- Bachelor of Science with Honours in Physics Jun 2007 - May 2010
- Ramakrishna Mission Vidyamandira, Belur Math, Howrah, India [Affiliated to University of Calcutta]
My current research primarily lies in the intersecting fields of Quantum Computation and Quantum Simulations and can be divided in the following four categories:
- Near-term Quantum Technologies: Efficient Techniques to Benchmark/Certify Noisy Quantum Hardwares, Quantum Error Mitigation/Characterization, Circuit Knitting Technique to Integrate Classically Parallelized Quantum Processors
- Quantum Algorithms: Variational Quantum Algorithms, Adiabatic Quantum Computation, Shortcut-to-adiabaticity, Tensor-Network based Algorithms for Simulating Quantum Mechanical Systems
- Many-Body Physics: Efficient Quantum Simulation of Complex Systems, Quantum Resource Estimation of Quantum Simulation, Nature of Quantum Correlations in Many-Body Systems, Non-equilibrium Dynamics
- Quantum Information Theory: Multipartite Entanglement Measures and their Computational Complexity, Quantum Communication in a Network, Quantum Correlations Beyond Entanglement, Geneuine Quantum Resources behind Quantum Advantage
For my last publication see my Google Scholar page: https://scholar.google.com/citations?user=PYFtFGYAAAAJ&hl=en
