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Paper detail

Controllable energy angular spectrum method

A controllable energy method, which considers the undersampling issue of the transfer function and valid spectral energy of a source signal, is proposed to implement angular spectrum diffraction calculation in near and far fields. The proposed method provides an optimized frequency boundary $f_{CE}$ within which it always keeps controllable energy to be diffracted. The controllable energy angular spectrum method significantly reduces the number of samples while having the same accuracy as previous angular spectrum methods, implying a higher calculation efficiency. The new perspective of analyzing spectral energy is shown to improve the performance of relevant diffraction calculations.

preprint2022arXivOpen access
Fan WangTomoyoshi ShimobabaTakashi KakueTomoyoshi Ito
eess.IVphysics.optics
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Fan WangTomoyoshi ShimobabaTakashi KakueTomoyoshi Ito

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