期刊
PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES
卷 154, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.physe.2023.115816
关键词
Graphene; Black phosphorus; Waveguide; Infrared; Plasmonics
This paper investigates the theoretical aspects of edge plasmon modes in a waveguide made of a double layer strip composed of graphene and black phosphorus (G-BP). The study focuses on the influence of the black phosphorus edge molecular configuration on the plasmonic mode properties. The anisotropy of black phosphorus significantly affects the modes, with armchair direction plasmons having lower losses and zigzag direction modes exhibiting stronger field confinement near the black phosphorus layer. By selecting appropriate parameters, the characteristics of the edge plasmon modes can be effectively controlled. The research also reveals that monolayer black phosphorus nanoribbons on low refractive index dielectric substrates are favorable for plasmonic applications due to low losses in the edge modes. These findings contribute to the advancement of integrated plasmonic devices based on the combination of graphene and black phosphorus.
In this paper, we investigate the theoretical aspects of edge plasmon modes in a waveguide that utilizes a double layer strip composed of graphene and black phosphorus (G-BP). Here, we focus on the influence of the black phosphorus edge molecular configuration on the properties of these plasmonic modes. Unlike graphene, the anisotropy of black phosphorus significantly impacts the modes. Specifically, edge plasmons propagating in the armchair direction exhibit relatively low losses, while modes propagating in the zigzag direction exhibit stronger field confinement near the black phosphorus layer. By selecting appropriate parameters such as the operation wavelength, black phosphorus doping level, and graphene Fermi energy, the characteristics of the edge plasmon modes in the proposed waveguides can be effectively controlled. Furthermore, the study reveals that monolayer black phosphorus nanoribbons placed on low refractive index dielectric substrates are favorable for plasmonic applications due to the low losses observed in the edge modes. The results obtained from this investigation contribute to the advancement of integrated plasmonic devices that rely on the combination of graphene and black phosphorus.
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