Our group focuses on theoretical research in quantum information and computation, particularly on developing resource-efficient and fault-tolerant quantum computing strategies through Quantum Error Correction (QEC).
Research Topics
Our main research areas include:
- QEC Code & Circuit Design: Developing and optimizing quantum error-correcting codes and their circuit implementations
- Decoding Algorithms: Creating high-performance and efficient algorithms to decode syndrome information and correct errors
- Non-Clifford Gate Implementation: Designing resource-efficient methods for implementing non-Clifford gates (e.g., magic state distillation/cultivation)
- Hardware-Tailored QEC: Exploring QEC designs tailored to and optimized for specific hardware platforms, including superconducting, photonic, and trapped-ion qubits
