Semiconductor Quantum Technology Research Group

Our research group focuses on advancing computational methods to study point defects in solids for quantum technology applications. We work at the intersection of first-principles electronic structure calculations, quantum dynamics simulations, and method development.

Our goal is to optimize defect-based quantum technologies that we achieve by developing advanced techniques to model the electronic, optical, and spin properties of defects, as well as exploring spin dynamics in non-Markovian environments.

We refine methodologies for simulating quantum systems and provide critical insights and numerical parameters essential for the development and optimization of quantum sensing, quantum computation, and quantum communication.