Litcius/Paper detail

Compact High Resolution Speckle Spectrometer by Using Linear Coherent Integrated Network on Silicon Nitride Platform at 776 nm

Zunyue Zhang, Yuan Li, Yi Wang, Zejie Yu, Xiankai Sun, Hon Ki Tsang

2021Laser & Photonics Review58 citationsDOI

Abstract

Abstract Motivated by applications in mobile optical sensing, ultracompact high‐resolution integrated spectrometers have attracted much interest. Here, a high‐resolution integrated speckle spectrometer, comprising a linear coherent network formed by mutually coupled Mach–Zehnder interferometers and nonidentical microring resonators, is proposed and demonstrated. Deep‐etched grating lines used as mirrors on the edges of the coherent network increase the effective optical path lengths. The speckle spectrometer is realized on a silicon nitride platform, operating at 776 nm central wavelength. The eight‐in−eight‐out linear coherent network provides 64 physical channels. Fine spectral lines separated by 20 pm are experimentally resolved within a device footprint of 520 µm × 220 µm. Compressive sensing is achieved for sparse spectra over a wide optical bandwidth. Up to 600 distinctive wavelength channels can be reconstructed from the 64 physical channels, giving 12 nm operating bandwidth. Both sparse spectra and continuous spectra are well reconstructed experimentally. The integrated speckle spectrometer has great potential for use in future biosensing and bioimaging applications where high spectral resolution is desired.

Topics & Concepts

SpectrometerOpticsAstronomical interferometerMaterials scienceSilicon nitrideWavelengthBandwidth (computing)OptoelectronicsPhysicsInterferometrySiliconComputer scienceTelecommunicationsPhotonic and Optical DevicesAdvanced Fiber Laser TechnologiesNeural Networks and Reservoir Computing