Project Description
I work on future-proof technologies at the intersection of mathematics and quantum information. My projects include designing bosonic quantum error-correcting codes to make photonic quantum computers more reliable, and exploring post-quantum blockchain systems that can remain secure even in a quantum era.
Research Classification
- Coding and information theory applied to communications and networks technologies
- Quantum computing
- Number theory
- Machine learning
- Encryption and cryptography
- Distributed systems
- Privacy-enhancing technologies
Research Interests
- Quantum Error Correcting Codes
- Blockchain
- Post-Quantum Cryptography
- Data Science
- Lattice Codes
- Wireless Communications
- Coding and Information Theory
- Coding Theory
- Physical Layer Security
Research Methodology
- Algebraic Coding Theory: Construction and analysis of error-correcting codes over finite fields, local rings, and lattices.
- Quantum Error Correction: Design and simulation of bosonic codes (continuous-variable, photonic systems), including stabilizer-based and GKP-style cod
- Post-Quantum Cryptography & Blockchain: Security modeling of blockchain protocols against quantum adversaries
- Quantum Simulation Environments (e.g., Skit, PennyLane and Xanadu's photonic simulators).