Plasmonic Twistronics: Creating Skyrmion Bags by Twisting Plasmonic Skyrmion Lattices
This research paper introduces "plasmonic twistronics," a novel method for generating complex optical fields with unique topological features by twisting plasmonic skyrmion lattices.
Dry Synthesis and Characterization of Copper Nanoislands for Plasmonic Applications
This research paper presents a novel dry synthesis method for creating copper nanoislands (Cu NIs), a cost-effective material for plasmonic applications, and characterizes their optical and electronic properties using a multi-modal approach.
Quantum and Fabrication Effects on Plasmonic Nanolenses and Their Chiral Light Interactions
This research paper investigates how quantum effects and fabrication imperfections impact the performance of plasmonic nanolenses, particularly their ability to enhance near-field intensity and exhibit chiral optical properties.
Exact Theory of Transverse Electric Plasmon Launching at Two-Dimensional Junctions via Edge Diffraction
This paper presents an exact analytical solution for the diffraction of transverse electric (TE) polarized electromagnetic waves at the junction of two two-dimensional electron systems (2DES), revealing the possibility of efficient TE plasmon launching at these junctions for specific conductivity values.
Modal Decomposition of Light Scattering by Gold Nanoparticles Using the Boundary Element Method
This study introduces and compares two mode decomposition strategies, singular value decomposition (SVD) and quasi-normal mode (QNM) decomposition, within the boundary element method (BEM) to analyze and understand the optical responses of localized surface plasmons (LSPs) in gold nanoparticles.
Analytical Study of Hybrid Surface Plasmon-Phonon Polaritons in a Graphene-LiF Heterostructure with a Nonlinear Cladding for THz Applications
A novel graphene-LiF heterostructure with a nonlinear cladding exhibits tunable hybrid surface plasmon-phonon polariton propagation characteristics, showing potential for THz applications due to high achievable figures of merit.
Lateral Plasmonic Crystals: A Theoretical Analysis of Tunability, Dark Modes, and the Transition from Weak to Strong Coupling
This paper presents a theoretical model for understanding the behavior of lateral plasmonic crystals, focusing on their tunability, the existence of bright and dark modes, and the transition between weak and strong coupling regimes in the presence of dissipation.
一維調制等離子晶體中的量子能帶結構和拓撲學
通過分析等離子體波函數的拓撲性質,可以預測一維等離子晶體中由於週期性電荷密度調制而產生的等離子體模式的行為,特別是在邊緣和界面處。
Quantum Band Structure and Topology of Plasmons in One-Dimensional Modulated Graphene
This paper investigates the topological properties of plasmons in one-dimensional plasmonic crystals made from periodically modulated graphene, revealing the emergence of topologically protected plasmonic states at interfaces and defects.
무작위 금 나노입자 어셈블리에서 하이브리드 표면 플라즈몬 모드의 국소화 현상 연구
무작위로 배열된 금 나노입자 어셈블리에서 하이브리드 표면 플라즈몬 모드의 국소화는 나노입자의 두께에 따라 달라지며, 이는 나노입자의 분극률 특성에 기인한다.
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