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Band-extended angular spectrum method for accurate diffraction calculation in a wide propagation range

Wenhui Zhang, Hao Zhang, Guofan Jin

2020Optics Letters57 citationsDOI

Abstract

The band-extended angular spectrum method (ASM) is proposed in this Letter for both near- and far-field diffraction calculation with high accuracy. Due to the aliasing problem of the transfer function (TF), the ASM is not suitable for far-field diffraction calculation. For band-limited ASM, the non-aliased bandwidth of the TF would shrink rapidly with the increase of the propagation distance, which would reduce the calculation accuracy in the far field. For the proposed band-extended ASM, the non-aliased bandwidth is significantly extended by rearranging the sampling points in the spatial frequency domain. Therefore, more frequency components of the TF contribute to the wave-field calculation, leading to a much wider propagation range and a higher computational accuracy.

Topics & Concepts

DiffractionBandwidth (computing)OpticsAngular spectrum methodAliasingPhysicsFrequency domainSpatial frequencyNear and far fieldTransfer functionComputer scienceComputational physicsTelecommunicationsElectrical engineeringComputer visionEngineeringUndersamplingSoil Moisture and Remote SensingElectromagnetic Simulation and Numerical MethodsMicrowave Engineering and Waveguides
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