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Autori principali: Ma, Ruihan, Cheng, Yuqing, Sun, Mengtao
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2601.18104
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author Ma, Ruihan
Cheng, Yuqing
Sun, Mengtao
author_facet Ma, Ruihan
Cheng, Yuqing
Sun, Mengtao
contents A kind of asymmetric transmission (AT) device based on bilayer silicon arrays (BSA) nanostructure is theoretically explored, which achieves high forward transmissivity and suppressed backward transmissivity for broadband by simply adjusting the parameters of the structure. The structure consists of two silicon cylinder arrays, one on the SiO2 substrate and the other embedded in the substrate. Particularly, three AT devices with different configurations are designed, which exhibit broadband AT with high isolation ratios in the wavelength ranges of 685-807 nm, 866-1029 nm, and 1285-1536 nm, respectively. A comprehensive analysis of the BSA structure's performance across different array periods highlights its potential for broadband optical applications, such as optical isolation and multi-channel optical sensors.
format Preprint
id arxiv_https___arxiv_org_abs_2601_18104
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Broadband asymmetric transmission with tunable bilayer silicon nanoarrays: from visible to near-infrared
Ma, Ruihan
Cheng, Yuqing
Sun, Mengtao
Optics
A kind of asymmetric transmission (AT) device based on bilayer silicon arrays (BSA) nanostructure is theoretically explored, which achieves high forward transmissivity and suppressed backward transmissivity for broadband by simply adjusting the parameters of the structure. The structure consists of two silicon cylinder arrays, one on the SiO2 substrate and the other embedded in the substrate. Particularly, three AT devices with different configurations are designed, which exhibit broadband AT with high isolation ratios in the wavelength ranges of 685-807 nm, 866-1029 nm, and 1285-1536 nm, respectively. A comprehensive analysis of the BSA structure's performance across different array periods highlights its potential for broadband optical applications, such as optical isolation and multi-channel optical sensors.
title Broadband asymmetric transmission with tunable bilayer silicon nanoarrays: from visible to near-infrared
topic Optics
url https://arxiv.org/abs/2601.18104