Phase sensitive quantum spectroscopy with high frequency resolution

Abstract

Classical sensors for spectrum analysis are widely used but lack micro- or nanoscale spatial resolution. On the other hand, quantum sensors, capable of working with nanoscale precision, do not provide precise frequency resolution over a wide range of frequencies. Using a single spin in diamond, we present a measurement protocol for quantum probes which enables full signal reconstruction on a nanoscale spatial resolution up to potentially 100\,GHz. We achieve 58\,nT/Hz amplitude and 0.095\,rad/Hz phase sensitivity and a relative frequency uncertainty of 10-12 for a 1.51\,GHz signal within 10\,s of integration. This technique opens the way to quantum spectrum analysis methods with potential applications in electron spin detection and nanocircuitry in quantum technologies.