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Broadband coherent modulation imaging with no knowledge of the illumination spectrum distribution

Huixiang Lin, Wenhui Xu, Jiangtao Zhao, Fucai Zhang

2023Optics Letters13 citationsDOI

Abstract

Coherent diffraction imaging (CDI) is an alternative way to achieve high-performance imaging without high-quality imaging lenses. Coherent modulation imaging (CMI) improves CDI's algorithmic convergence and applicability to general samples. A high degree of coherence of the source is essential for CDI, which limits its application to ultrafast pulsed sources with an intrinsically broad spectrum. Here, we propose an algorithm to increase the tolerance of CMI to low temporal coherence that tandemly employs the Wiener and Lucy deconvolution approaches. Simulations and visible light experiments demonstrate the effectiveness of our method. This work could pave the way for implementing CMI with attosecond pulsed lasers, laboratory x-ray sources, or electron microscopes.

Topics & Concepts

DeconvolutionOpticsCoherence (philosophical gambling strategy)Modulation (music)Ultrashort pulseBroadbandAttosecondCoherent diffraction imagingDiffractionComputer scienceSuperposition principlePhysicsCoherence theoryLaserCoherence lengthPhase retrievalAcousticsFourier transformQuantum mechanicsSuperconductivityAdvanced X-ray Imaging TechniquesDigital Holography and MicroscopyOptical measurement and interference techniques
Broadband coherent modulation imaging with no knowledge of the illumination spectrum distribution | Litcius