Craig, Adam P. and Carmichael, Mark and Golding, Terry D. and Marshall, Andrew R. (2023) Solid-state micro-spectrometer based on a linear array of infrared resonant-cavity-enhanced photodetectors. In: Chemical, Biological, Radiological, Nuclear, and Explosives (CBRNE) Sensing XXIV :. Proceedings of SPIE - The International Society for Optical Engineering . SPIE, USA. ISBN 9781510661981
Full text not available from this repository.Abstract
We demonstrate a novel solid-state spectrometer employing a linear array of resonant cavity enhanced photodiodes (RCEPDs) with a spatial chirp. By epitaxially grading the thicknesses of the distributed Bragg reflector mirrors, the chirp can cover a total bandwidth of ≥0.1 λ γres where γres is the resonant wavelength. This new class of sensor is intended for analyzing IR absorption fingerprints and our group has already demonstrated conventional RCE-PDs between 2.2 - 7.8μm. In theory the range between 1.55 and ~12 μm could be served using the same materials. This region covers important spectral fingerprints including chemical and pollutant gases, as well as threat agents including thiodiglycol and VX.