A Prototype Atom Interferometer to Detect Dark Matter and Gravitational Waves

Abstract: The AION project has built a tabletop prototype of a single-photon long-baseline atom interferometer using the 87Sr clock transition - a type of quantum sensor designed to search for dark matter and gravitational waves. Our prototype detector operates at the Standard Quantum Limit (SQL), producing a signal with no unexpected noise beyond atom shot noise. Importantly, the detector remains at the SQL even when additional laser phase noise is introduced, emulating conditions in a long-baseline detector such as AION or AEDGE where significant laser phase deviations will accumulate during long atom interrogation times. Our results mark a key milestone in extending atom interferometers to long baselines. Such interferometers can complement laser-interferometer gravitational wave detectors by accessing the mid-frequency gravitational wave band around 1 Hz, and can search for physics beyond the Standard Model.