Integrating high-precision and fringe-scale displacement sensing using heterodyne cavity-tracking

Abstract

We present a heterodyne stabilized cavity-based interferometer scheme that can serve as a compact and high-sensitivity displacement sensor with a fringe-scale operating range. The technique, in principle, can reach a sub-femtometer noise floor and an operating range on the order of one laser wavelength at λ ≈ 1\,μ m. With our current experimental setup, we achieve a sensitivity of about 260 fm/Hz at 1\,Hz and 46 fm/Hz at around 130\,Hz. By probing a length actuated cavity, we demonstrate six orders of magnitude of dynamic range for displacement measurement, reaching a maximum motion of 0.15\,μ m. The tracking bandwidth and displacement range are limited by analog effects in the signal digitization and are extendable in the future.