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Single pixel imaging at megahertz switching rates via cyclic Hadamard masks

Evgeny Hahamovich, Sagi Monin, Yoav Hazan, Amir Rosenthal

2021Nature Communications148 citationsDOIOpen Access PDF

Abstract

Optical imaging is commonly performed with either a camera and wide-field illumination or with a single detector and a scanning collimated beam; unfortunately, these options do not exist at all wavelengths. Single-pixel imaging offers an alternative that can be performed with a single detector and wide-field illumination, potentially enabling imaging applications in which the detection and illumination technologies are immature. However, single-pixel imaging currently suffers from low imaging rates owing to its reliance on configurable spatial light modulators, generally limited to 22 kHz rates. We develop an approach for rapid single-pixel imaging which relies on cyclic patterns coded onto a spinning mask and demonstrate it for in vivo imaging of C. elegans worms. Spatial modulation rates of up to 2.4 MHz, imaging rates of up to 72 fps, and image-reconstruction times of down to 1.5 ms are reported, enabling real-time visualization of dynamic objects.

Topics & Concepts

PixelOpticsCollimated lightDigital micromirror deviceHadamard transformDetectorField of viewComputer scienceImage resolutionImage sensorSpatial light modulatorMaterials sciencePhysicsLaserQuantum mechanicsRandom lasers and scattering mediaTerahertz technology and applicationsAdvanced Fluorescence Microscopy Techniques
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