Research

Neutral Atoms Coupled to Optical Microcavities Neutral atom arrays are a powerful platform for quantum computing and simulation. Interfacing neutral atoms with optical cavities enables fast, nondestructive qubit readout and high-rate generation of remote...

Neutral atoms are a promising platform for quantum science, enabling advances in areas ranging from quantum simulations and computation to metrology, atomic clocks and quantum networking. Because atoms can only be held in optical tweezers for a finite...

Sensing with color centers in diamond Sensing with Silicon Vacancy centers High-resolution thermometry is important tool for the control of complex nanoscale systems. Specifically, non-contact thermometers built from luminescent probes such as quantum...

Quantum computing and simulation with neutral atom arrays In our lab, we study quantum computing and simulation using arrays of individually-trapped rubidium-87 atoms. Each atom is independently trapped in vacuum in an optical tweezer, enabling real-time...

Quantum Optics in TMDCs The advent of graphene has opened up a vast plethora of research into a wide variety of other, intrinsically two-dimensional Van der Waals materials. Within the generic family of Van der Waals materials, transition metal...

Quantum Networks with SiV Centers Quantum networks are an exciting complement to quantum computing, as they allow us to send quantum states and share entanglement over long distances, enabling applications from quantum key distribution to connecting...