Litcius/Paper detail

High-resolution on-chip Fourier transform spectrometer based on cascaded optical switches

Junjie Du, Hongyi Zhang, Xinyi Wang, Weihan Xu, Liangjun Lu, Jianping Chen, Linjie Zhou

2021Optics Letters17 citationsDOI

Abstract

Chip-level spectrometers provide a stable and cost-effective solution for spectral analysis in various applications. Here we present a silicon on-chip digital Fourier transform spectrometer consisting of eight cascaded optical switches connected by delay waveguides. By configuring the states of the optical switches, this chip can realize 127 Mach-Zehnder interferometers with linearly increased optical path differences. A machine-learning regularization method is utilized to reconstruct the spectrum. Experimental results show that our chip can retrieve both sparse and broadband optical spectra with negligible reconstruction errors. The spectral resolution can be further improved by cascading more stages of optical switches. Our method has the advantages of compact size, high scalability, and high signal-to-noise ratio, making it a promising candidate for realizing miniaturized spectrometers.

Topics & Concepts

OpticsSpectrometerOptical pathFourier transformBroadbandAstronomical interferometerFourier transform spectroscopyPhysicsOptical filterOptical switchInterferometryDigital micromirror deviceSilicon photonicsChipMaterials scienceSignal processingSpectral resolutionOptoelectronicsOptical engineeringOptical path lengthOptical transistorFast Fourier transformFourier transform infrared spectroscopySpectral imagingOptical modulatorPhotonicsOptical cross-connectOptical amplifierFourier opticsPhotonic and Optical DevicesOptical Network TechnologiesNeural Networks and Reservoir Computing