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Rapid chemically selective 3D imaging in the mid-infrared

Eric O. Potma, David Knez, Yong Chen, Yulia Davydova, Amanda Durkin, Alexander Fast, Mihaela Balu, Brenna Norton-Baker, Rachel W. Martin, Tommaso Baldacchini, Dmitry A. Fishman

2021Optica19 citationsDOIOpen Access PDF

Abstract

The emerging technique of mid-infrared optical coherence tomography (MIR-OCT) takes advantage of the reduced scattering of MIR light in various materials and devices, enabling tomographic imaging at deeper penetration depths. Because of challenges in MIR detection technology, the image acquisition time is, however, significantly longer than for tomographic imaging methods in the visible/near-infrared. Here we demonstrate an alternative approach to MIR tomography with high-speed imaging capabilities. Through femtosecond nondegenerate two-photon absorption of MIR light in a conventional Si-based CCD camera, we achieve wide-field, high-definition tomographic imaging with chemical selectivity of structured materials and biological samples in mere seconds.

Topics & Concepts

Optical coherence tomographyTomographic reconstructionTomographyMaterials scienceOpticsMedical imagingPreclinical imagingOptical tomographyImaging techniqueOptical imagingFemtosecondPenetration depthBiomedical engineeringMolecular imagingLight scatteringIterative reconstructionCoherence (philosophical gambling strategy)Data acquisitionChemical imagingFunctional imagingBiological imagingAbsorption (acoustics)Diffuse optical imagingImage contrastOptical Coherence Tomography ApplicationsAdvanced Fluorescence Microscopy TechniquesLaser Material Processing Techniques
Rapid chemically selective 3D imaging in the mid-infrared | Litcius