Silicon cuboid nanoantenna with simultaneous large Purcell factor for electric dipole, magnetic dipole and electric quadrupole emission

IF 15.3 1区 物理与天体物理 Q1 OPTICS Opto-Electronic Advances Pub Date : 2022-01-01 DOI:10.29026/oea.2022.210024
Qiurong Deng, Jianfeng Chen, Li Long, Baoqin Chen, Huakang Yu, Zhiyuan Li
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引用次数: 6

Abstract

The Purcell effect is commonly used to increase the spontaneous emission rate by modifying the local environment of a light emitter. Here, we propose a silicon dielectric cuboid nanoantenna for simultaneously enhancing electric dipole (ED), magnetic dipole (MD) and electric quadrupole (EQ) emission. We study the scattering cross section, polarization charge distribution, and electromagnetic field distribution for electromagnetic plane wave illuminating the silicon dielectric cuboid nanoantenna, from which we have identified simultaneous existence of ED, MD and EQ resonance modes in this nanoantenna. We have calculated the Purcell factor of ED, MD and EQ emitters with different moment orientations as a function of radiation wavelength by placing these point radiation source within the nanoantenna, respectively. We find that the resonances wavelengths of the Purcell factor spectrum are matching with the resonance modes in the nanoantenna. Moreover, the maximum Purcell factor of these ED, MD and EQ emitters is 18, 150 and 118 respectively, occurring at the resonance wavelength of 475, 750, and 562 nm, respectively, all within the visible range. The polarization charge distribution features allow us to clarify the excitation and radiation of these resonance modes as the physical origin of large Purcell factor simultaneously occurring in this silicon cuboid nanoantenna. Our theoretical results might help to deeply explore and design the dielectric nanoantenna as an ideal candidate to enhance ED, MD and EQ emission simultaneously with very small loss in the visible range, which is superior than the more popular scheme of plasmonic nanoantenna.
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具有同时用于电偶极子、磁偶极子和电四极子发射的大珀塞尔因子的硅长方体纳米天线
珀塞尔效应通常用于通过改变光源的局部环境来提高自发发射率。在这里,我们提出了一种硅介质长方体纳米天线,用于同时增强电偶极子(ED),磁偶极子(MD)和电四极子(EQ)发射。研究了电磁平面波照射硅介质长方体纳米天线的散射截面、极化电荷分布和电磁场分布,确定了该纳米天线中同时存在ED、MD和EQ共振模式。通过在纳米天线中分别放置点辐射源,计算了不同矩向ED、MD和EQ辐射源的Purcell因子与辐射波长的关系。我们发现珀塞尔因子光谱的共振波长与纳米天线的共振模式相匹配。ED、MD和EQ发射体的最大Purcell因子分别为18、150和118,分别发生在谐振波长为475、750和562 nm处,均在可见光范围内。极化电荷分布特征使我们能够明确这些共振模式的激发和辐射是同时发生在硅长方体纳米天线中的大Purcell因子的物理根源。我们的理论结果可能有助于深入探索和设计介质纳米天线,使其成为在可见光范围内同时增强ED, MD和EQ发射且损耗很小的理想候选方案,这优于更流行的等离子体纳米天线方案。
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来源期刊
CiteScore
19.30
自引率
7.10%
发文量
128
期刊介绍: Opto-Electronic Advances (OEA) is a distinguished scientific journal that has made significant strides since its inception in March 2018. Here's a collated summary of its key features and accomplishments: Impact Factor and Ranking: OEA boasts an impressive Impact Factor of 14.1, which positions it within the Q1 quartiles of the Optics category. This high ranking indicates that the journal is among the top 25% of its field in terms of citation impact. Open Access and Peer Review: As an open access journal, OEA ensures that research findings are freely available to the global scientific community, promoting wider dissemination and collaboration. It upholds rigorous academic standards through a peer review process, ensuring the quality and integrity of the published research. Database Indexing: OEA's content is indexed in several prestigious databases, including the Science Citation Index (SCI), Engineering Index (EI), Scopus, Chemical Abstracts (CA), and the Index to Chinese Periodical Articles (ICI). This broad indexing facilitates easy access to the journal's articles by researchers worldwide.
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