Litcius/Paper detail

Kilohertz frame rate snapshot hyperspectral imaging of metal reactive materials

Milad Alemohammad, Elliot R. Wainwright, Jasper R. Stroud, Timothy P. Weihs, Mark A. Foster

2020Applied Optics11 citationsDOI

Abstract

We demonstrate a kilohertz frame rate snapshot hyperspectral imaging system suitable for high-speed imaging, which we name snapshot hyperspectral imager for emission and reactions (SHEAR). This system splits the sensor of a single high-speed camera to simultaneously capture a conventional image and a spectrally sheared response of the scene under study. Given the small, point-source-like nature of burning metal micro-particles, the spectral response of the species is captured without the need for a slit, as is needed in conventional imaging spectrometers. We pair robust image registration techniques with sparse reconstruction algorithms to computationally disentangle overlapping spectra associated with many burning particles over the course of a combustion experiment. As a proof-of-concept experiment, representative physical vapor deposited Al:Zr composite particles are ignited, and their burn evolution is recorded at a frame rate of 2 kHz using this method. We demonstrate operation over two distinct wavelength ranges spanning hundreds of nanometers in wavelength and with sub-nanometer resolution. We are able to track hundreds of individual Al:Zr particles in a single high-speed video, providing ample statistics of burn time, temperature, and AlO emission timing in a high-throughput method. The demonstrated technology is high-throughput, flexible in wavelength, inexpensive, and relatively easy to implement, and provides a much needed tool for in situ composite metal fuel diagnostics.

Topics & Concepts

Hyperspectral imagingFrame rateOpticsSnapshot (computer storage)Spectral imagingMaterials scienceWavelengthImage resolutionComputer scienceSpectrometerImaging spectrometerMultispectral imageImage processingRemote sensingPhysicsArtificial intelligenceGeologyImage (mathematics)Operating systemSpectroscopy Techniques in Biomedical and Chemical ResearchThermography and Photoacoustic TechniquesSpectroscopy and Chemometric Analyses