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Main Author: Ben-Aryeh, Y.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2404.19333
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author Ben-Aryeh, Y.
author_facet Ben-Aryeh, Y.
contents The EM waves transmitted through a thin object with fine structures is observed, by microsphere located above the object. While the waves include both evanescent and propagating waves, the high resolution is obtained by the evanescent ones, including the information on the fine structures of the object. Description of this process is divided into two parts: a) The super resolution is analyzed by using Helmholtz equation for the evanescent waves transmitted from the object to the microsphere surface. b) Using boundary condition, the electric fields on the inner surface of the microsphere includes both the evanescent and propagating waves. The transmission of these waves to a nano jet is produced by a transfer function, including convolution between the spatial modes of the evanescent waves with those of the microsphere, which increases the conversion of the evanescent waves to propagating waves, and thus increase the resolution.
format Preprint
id arxiv_https___arxiv_org_abs_2404_19333
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Super-resolution by converting evanescent waves in microsphere to propagating and transfer function from its surface to nano-jet
Ben-Aryeh, Y.
Optics
The EM waves transmitted through a thin object with fine structures is observed, by microsphere located above the object. While the waves include both evanescent and propagating waves, the high resolution is obtained by the evanescent ones, including the information on the fine structures of the object. Description of this process is divided into two parts: a) The super resolution is analyzed by using Helmholtz equation for the evanescent waves transmitted from the object to the microsphere surface. b) Using boundary condition, the electric fields on the inner surface of the microsphere includes both the evanescent and propagating waves. The transmission of these waves to a nano jet is produced by a transfer function, including convolution between the spatial modes of the evanescent waves with those of the microsphere, which increases the conversion of the evanescent waves to propagating waves, and thus increase the resolution.
title Super-resolution by converting evanescent waves in microsphere to propagating and transfer function from its surface to nano-jet
topic Optics
url https://arxiv.org/abs/2404.19333