Current work

The ability to deterministically generate high-quality single photons is a critical requirement for the construction of photonic quantum networks and processors. Artificial atoms in silicon hold great promise for overcoming the challenges associated with scaling quantum technologies through silicon photonics. They have the potential to realize deterministic quantum light sources, photon-photon gates, and quantum memories, offering a promising path to scalable quantum technology through advanced semiconductor manufacturing and integration capabilities.

Education

  • PhD, Physics, UC Berkeley (2021 - Present)
  • BS, Physics, Stevens Institute of Technology (2019 - 2021)
  • AAST, Bergen County Academies (2015 - 2019)