Simulation-Based Verification and Application Research of Spatial Spectrum Modulation Technology for Optical Imaging Systems

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Dades bibliogràfiques
Publicat a:	Photonics vol. 12, no. 8 (2025), p. 755-771
Autor principal:	Li, Yucheng
Altres autors:	Zhang, Yang, Liu Houyun, Wang Daokuan, Yuan Jiahui
Publicat:	MDPI AG
Matèries:	Design optimization Simulation Optics Image manipulation Phase modulation Electrons Fourier transforms Image filters Target recognition Microscopy Information processing Object recognition Light Amplitude modulation
Accés en línia:	Citation/Abstract Full Text + Graphics Full Text - PDF
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Descripció
Resum:	Leveraging Fourier optics theory and Abbe’s imaging principle, this study establishes that optical imaging fundamentally involves selective spatial spectrum recombination at the Fourier plane. Three classical experiments quantitatively validate universal spectrum manipulation mechanisms: (1) The Abbe-Porter experiment confirmed spectral filtering, directly demonstrating image synthesis from transmitted spectral components. (2) Zernike phase-contrast microscopy quantified spectral phase modulation, overcoming the weak-phase-object detection limit by significantly enhancing contrast. (3) Optical joint transform correlation (JTC) demonstrated efficient spectral amplitude modulation for high-speed, high-accuracy image recognition. Collectively, these results form a comprehensive framework for active light field manipulation at the spectral plane, extending modulation capabilities to phase and amplitude dimensions. This work provides a foundational theoretical and technical framework for designing advanced optical systems, extending modulation capabilities to phase and amplitude dimensions.
ISSN:	2304-6732
DOI:	10.3390/photonics12080755
Font:	Advanced Technologies & Aerospace Database