Quantum software engineer building tools for post-quantum cryptography, error correction, and quantum simulation.
Modular framework for post-quantum blockchain consensus with topologically protected cryptographic proofs, enabling resilient verification under adversarial conditions.
- Focus: Post-quantum cryptography, consensus protocols, topological data analysis
Interactive toolkit for quantum low-density parity-check codes with real-time circuit construction, belief propagation decoding, syndrome extraction, and Qiskit integration.
- Focus: Fault-tolerant quantum error correction, LDPC simulation, circuit visualization
Quantum-blockchain protocol for verifiable random number generation via quantum key distribution, strengthening cryptographic security in distributed consensus.
- Focus: Quantum cryptography, verifiable randomness, distributed consensus
Variational quantum eigensolver for molecular ground state energy computation - Jordan-Wigner mapping, parameterized ansatz circuits, and classical optimization over H₂ dissociation landscapes.
Isometric 2.5D creative sandbox in Python/Pygame with 100+ block types, real-time liquid dynamics, dynamic lighting, weather systems, and three explorable dimensions.
- Post-Quantum Cryptography: Engineering secure consensus protocols and quantum random number generation systems at BTQ, with topological trust partitioning for adversarial-resilient distributed networks.
- Quantum Simulation: Building exact diagonalization pipelines across fifteen many-body models, quantifying thermalization time scaling to establish coherence bounds for quantum device design.
