Research
R1. Quantum Error Correction: Forging the Path to Fault-Tolerance
Develop new quantum codes that are hardware-aware and tailored to environments with biased, correlated, and/or coherent noises, introduce novel fault-tolerant gates beyond transversality, and refine scalable implementations for practical quantum computing architectures.
R2. Quantum Networks: Weaving the Quantum Fabric
Implement networked error correction beyond node-level encoding, noise and error-resilient entanglement protocols, distance-independent rate and fidelity of quantum information flow, and distributed stabilization of resilient many-body quantum states.
R3. AI: New Quantum Engineer
Utilize machine learning to synthesize error and resource-aware quantum circuits, develop advanced quantum error correction codes, and co-design robust fault-tolerant quantum architectures, algorithms, and protocols.