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Main Authors: Jiawei, Xu, Ran, Huang, Lei, Tao, Jiaming, Zhang, Xuanxuan, Wu, Pengchong, Yang, Shuangbao, Lyu, Jinglai, Duan
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2501.09758
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author Jiawei, Xu
Ran, Huang
Lei, Tao
Jiaming, Zhang
Xuanxuan, Wu
Pengchong, Yang
Shuangbao, Lyu
Jinglai, Duan
author_facet Jiawei, Xu
Ran, Huang
Lei, Tao
Jiaming, Zhang
Xuanxuan, Wu
Pengchong, Yang
Shuangbao, Lyu
Jinglai, Duan
contents The gold nanocone array, fabricated with the ion track method, exhibits exceptionally high light absorptivity, making it a wide angle light absorber. The finite difference time domain (FDTD) method was employed to study the influence of the geometric parameters on total absorptivity and promote strategies to enhance the absorptivity of the gold nanocone array. Experimental measurements were concluded to assess the total absorption and bidirectional reflection distribution function (BRDF) properties of the gold nanocone array. The absorptivity measurement results demonstrate that the gold nanocone array exhibits a wide angle (5-75°) of incidence and high absorptivity properties, achieving an absorptivity over 0.98. The BRDF results show that the reflection of the gold nanocone array is predominantly attributed to non-specular reflections, and exhibits excellent Lambert properties. This study reveals the influence of structural parameters and light incidence angle on the absorptivity of the gold nanocone array, which plays an important role in further understanding the light absorption/reflection mechanism and enhancing the absorptivity.
format Preprint
id arxiv_https___arxiv_org_abs_2501_09758
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Gold nanocone array with wide angles and high absorptivity for light absorber
Jiawei, Xu
Ran, Huang
Lei, Tao
Jiaming, Zhang
Xuanxuan, Wu
Pengchong, Yang
Shuangbao, Lyu
Jinglai, Duan
Optics
Materials Science
The gold nanocone array, fabricated with the ion track method, exhibits exceptionally high light absorptivity, making it a wide angle light absorber. The finite difference time domain (FDTD) method was employed to study the influence of the geometric parameters on total absorptivity and promote strategies to enhance the absorptivity of the gold nanocone array. Experimental measurements were concluded to assess the total absorption and bidirectional reflection distribution function (BRDF) properties of the gold nanocone array. The absorptivity measurement results demonstrate that the gold nanocone array exhibits a wide angle (5-75°) of incidence and high absorptivity properties, achieving an absorptivity over 0.98. The BRDF results show that the reflection of the gold nanocone array is predominantly attributed to non-specular reflections, and exhibits excellent Lambert properties. This study reveals the influence of structural parameters and light incidence angle on the absorptivity of the gold nanocone array, which plays an important role in further understanding the light absorption/reflection mechanism and enhancing the absorptivity.
title Gold nanocone array with wide angles and high absorptivity for light absorber
topic Optics
Materials Science
url https://arxiv.org/abs/2501.09758