Compact spectrometer based on disordered multi-mode interferometer

Abstract

We demonstrate a compact (40 μm × 260 μm) spectrometer based on multimode interference aided by scattering of light from random SiO2-filled hole arrays on a silicon-on-insulator platform. We characterize the performance of the spectrometer for wavelengths around 1310 nm, and report that the spectrometer can reconstruct a broadband 67 nm source, as well as Lorentzian probes of 1 nm bandwidth. This compact nanometer level resolution spectrometer can be fabricated at a low cost for lab-on-a-chip sensing and imaging applications.