安裝中文字典英文字典辭典工具!
安裝中文字典英文字典辭典工具!
|
- Electromagnetic metasurface - Wikipedia
Besides the gradient metasurface lenses, metasurface-based superlenses offer another degree of control of the wavefront by using evanescent waves With surface plasmons in the ultrathin metallic layers, perfect imaging and super-resolution lithography could be possible, which breaks the common assumption that all optical lens systems are
- A Review on Metasurface: From Principle to Smart Metadevices
Metasurface can provide abrupt phase mutations to incident electromagnetic waves within sub-wavelength scales In the previous section, we have discussed the abnormal refraction and reflection of incident light caused by these
- Results (recent advances in metasurface design and analysis . . .
In short, this paper highlights a promising direction for intelligent metasurface designs and applications for future quantum optics research and serves as an up-to-date reference for researchers
- A review of metasurfaces: physics and applications - Harvard . . .
We provide an overview of key metasurface concepts such as anomalous reflection and refraction, and introduce metasurfaces based on the Pancharatnam–Berry phase and Huygens’ metasurfaces, as well as their use in wavefront shaping and beam forming
- Hsiao - 2017 - Small Methods - Wiley Online Library
Metasurface-based devices applied to vortex-beam generation have recently gained tremendous interest due to their various promising applications in high-resolution microscopy, optical tweezers, and classical and quantum 108,
- Metasurface - an overview | ScienceDirect Topics
Metasurface is a simpler two-dimensional version of metamaterial It may alter the amplitude and phase of the light source at any point on the wave plate by adjusting the resonance strength and the abrupt phase induced by
- 解説 メタサーフェス──新しい平面光学素子の原理と産業化へ . . .
近年,フォトニクスの分野ではメタサーフェス(metasurface)と呼ばれる二次元メタマテリアルの研究の進展が著しい (2), (3) .波長より極めて薄い平面レンズ(メタレンズ)や位相素子(メタホログラム)が実現され,既存の光学素子を
- Metasurface: Unlocking the future of wireless sensing . . .
Using this capability, we developed a GNSS positioning metasurface system (GPMS) based on passive metasurface technology One limitation of passive metasurfaces is their lack of programmability To overcome this and enable them to effectively guide signals from different angles and scatter them in parallel, we designed a two-layer metasurface
|
|
|