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Hauptverfasser: Sumaya-Martinez, J., Ortiz-Ferreyro, MA, Rojas-Hernandez, O.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2511.23394
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author Sumaya-Martinez, J.
Ortiz-Ferreyro, MA
Rojas-Hernandez, O.
author_facet Sumaya-Martinez, J.
Ortiz-Ferreyro, MA
Rojas-Hernandez, O.
contents We present an analytical and numerical investigation of double-slit diffraction under coherent illumination by three plane waves: one normally incident and two symmetrically angled at plus/minus theta. By imposing an edge-zero condition on the incident field, we derive compact closed-form Fresnel expressions written solely in terms of standard Fresnel integrals. The framework generalizes straightforwardly to an arbitrary number of incident plane-wave components, enabling intuitive control of the transmitted angular spectrum through interference engineered at the aperture. Numerical simulations confirm the accuracy of the closed-form model and characterize the influence of slit geometry, wavelength, partial coherence, and Gaussian beam width. We also discuss experimental feasibility and highlight potential applications in apodization, structured illumination, beam shaping, and multiplexed sensing. Overall, the results show that multi-wave coherent illumination provides a simple and tunable route to tailoring diffraction patterns and generating propagation-robust field profiles.
format Preprint
id arxiv_https___arxiv_org_abs_2511_23394
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Analytical Fresnel Treatment of Double-Slit Diffraction with Multiple Coherent Waves
Sumaya-Martinez, J.
Ortiz-Ferreyro, MA
Rojas-Hernandez, O.
Optics
We present an analytical and numerical investigation of double-slit diffraction under coherent illumination by three plane waves: one normally incident and two symmetrically angled at plus/minus theta. By imposing an edge-zero condition on the incident field, we derive compact closed-form Fresnel expressions written solely in terms of standard Fresnel integrals. The framework generalizes straightforwardly to an arbitrary number of incident plane-wave components, enabling intuitive control of the transmitted angular spectrum through interference engineered at the aperture. Numerical simulations confirm the accuracy of the closed-form model and characterize the influence of slit geometry, wavelength, partial coherence, and Gaussian beam width. We also discuss experimental feasibility and highlight potential applications in apodization, structured illumination, beam shaping, and multiplexed sensing. Overall, the results show that multi-wave coherent illumination provides a simple and tunable route to tailoring diffraction patterns and generating propagation-robust field profiles.
title Analytical Fresnel Treatment of Double-Slit Diffraction with Multiple Coherent Waves
topic Optics
url https://arxiv.org/abs/2511.23394