Publications

June 4, 2025

Vector atom accelerometry in an optical lattice

Two kinds of multidimensional atom interferometers are demonstrated that are capable of measuring both the magnitude and direction of applied inertial forces.

April 17, 2025

High-Precision Phase Control of an Optical Lattice with up to 50 dB Noise Suppression

An optical lattice is a periodic light crystal constructed from the standing-wave interference patterns of laser beams.

March 6, 2025

Universal gate set for optical lattice based atom interferometry

In this paper, we propose a paradigm for atom interferometry and demonstrate that there exists a universal set of atom optic components for inertial sensing.

December 6, 2024

Enabling photonic integrated 3D magneto-optical traps for quantum sciences and application

Cold atoms play an important role in fundamental physics, precision timekeeping, quantum and gravitational sensing, precision metrology, and quantum computing.

November 8, 2024

Demonstration of a programmable optical lattice atom interferometer

Performing interferometry in an optical lattice formed by standing waves of light offers potential advantages…

September 27, 2021

Reinforcement-learning-based matter-wave interferometer in a shaken optical lattice

We demonstrate the design of a matter-wave interferometer to measure acceleration in one dimension with high precision.

Peer-Reviewed Journal Articles