Superradiant Raman Laser Magnetometer

Abstract

We demonstrate a proof-of-principle magnetometer that relies on the active oscillation of a cold atom Raman laser to continuously map a field-sensitive atomic phase onto the phase of the radiated light. We demonstrate wideband sensitivity during continuous active oscillation, as well as narrowband sensitivity in passive Ramsey-like mode with translation of the narrowband detection in frequency using spin-echo techniques. The sensor operates with a sensitivity of 190 pT/Hz(1/2) at 1 kHz and effective sensing volume of 2 * 10-3 mm3. Fundamental quantum limits on the magnetic field sensitivity of an ideal detector are also considered.