About

I am an Assistant Professor (Lectureship, permanent) at Queen Mary University of London. I also hold the Schmidt AI in Science Fellowship at the Department of Physics, University of Oxford and Associate Research Fellowship at Reuben College Oxford.

Research interests: My research revolves around quantum computing, quantum information, and quantum many-body physics. My research lies in the exploration of quantum computing as a means to address problems that present challenges for classical computing. I aim to uncover the potential power of quantum computing, and examine whether it holds advantages in addressing quantum many-body problems.

I have a broad interest in quantum computing, quantum information, and quantum many-body physics, which include

• Quantum computing and quantum simulation
  • Quantum algorithms for eigenstate problems and dynamics problems
  • Hybrid quantum-classical computing
  • Quantum simulation of molecules and materials
  • Addressing the challenges with near-term quantum devices
• Open quantum dynamics and non-Markovianity
• Quantum error mitigation, error correction, and their intermediate forms
• Quantum computational chemistry
• Quantum many-body physics, e.g., high-temperature superconductivity, magnetism and topology
• Foundations in quantum physics and quantum information

Find some interesting research topics and descriptions of my selected research works under Research.

Openings: Feel free to reach out to me if you are interested in joining our group as a PhD or Postdoc, see Openings.

Thesis: Exploring quantum many-body systems from the viewpoints of quantum computing and spectroscopy (link)

PhD thesis, University of Oxford

A beginner’s guide to quantum computing could be found in my thesis above. Some philosophical discussions on the notion of quantum machines, quantum simulation and spectroscopy can also be found there.