手性声等离子体学。

IF 6.5 2区 物理与天体物理 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Beatriz Castillo López de Larrinzar, Chushuang Xiang, Edson Rafael Cardozo de Oliveira, Norberto Daniel Lanzillotti-Kimura, Antonio García-Martín
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引用次数: 1

摘要

创造和操纵纳米结构材料的可能性鼓励了对控制电磁特性的新策略的探索。最有趣的纳米结构是那些对螺旋极化反应不同的纳米结构,即表现出手性。在这里,我们提出了一个基于交叉细长条的简单结构,其中光手性定义了主要的截面吸收或散射,与对应的(散射或吸收)有200 %的差异。所提出的手性系统为增强相干声子激发和探测开辟了道路。我们从理论上提出了一个简单的相干声子产生实验(时间分辨布里渊散射)利用圆偏振光。在所报道的结构中,通过最大化吸收来优化声子的产生,而通过设计散射特性来增强在相同波长和不同螺旋度下的探测。所提出的结果构成了在设计和优化高效和通用声等离子换能器中收集手性效应的第一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Towards chiral acoustoplasmonics.

Towards chiral acoustoplasmonics.

Towards chiral acoustoplasmonics.

Towards chiral acoustoplasmonics.

The possibility of creating and manipulating nanostructured materials encouraged the exploration of new strategies to control electromagnetic properties. Among the most intriguing nanostructures are those that respond differently to helical polarization, i.e., exhibit chirality. Here, we present a simple structure based on crossed elongated bars where light-handedness defines the dominating cross-section absorption or scattering, with a 200 % difference from its counterpart (scattering or absorption). The proposed chiral system opens the way to enhanced coherent phonon excitation and detection. We theoretically propose a simple coherent phonon generation (time-resolved Brillouin scattering) experiment using circularly polarized light. In the reported structures, the generation of acoustic phonons is optimized by maximizing the absorption, while the detection is enhanced at the same wavelength and different helicity by engineering the scattering properties. The presented results constitute one of the first steps towards harvesting chirality effects in the design and optimization of efficient and versatile acoustoplasmonic transducers.

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来源期刊
Nanophotonics
Nanophotonics NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
13.50
自引率
6.70%
发文量
358
审稿时长
7 weeks
期刊介绍: Nanophotonics, published in collaboration with Sciencewise, is a prestigious journal that showcases recent international research results, notable advancements in the field, and innovative applications. It is regarded as one of the leading publications in the realm of nanophotonics and encompasses a range of article types including research articles, selectively invited reviews, letters, and perspectives. The journal specifically delves into the study of photon interaction with nano-structures, such as carbon nano-tubes, nano metal particles, nano crystals, semiconductor nano dots, photonic crystals, tissue, and DNA. It offers comprehensive coverage of the most up-to-date discoveries, making it an essential resource for physicists, engineers, and material scientists.
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