Strong Polarization Transformation Of Bloch Surface Waves

Di: Henry

We used a computational approach to design focusing elements for Bloch surface waves that are notoriously challenging to focus due to the limited index contrast.

Polarization controlled directional propagation of Bloch surface wave

The polarization transformation efficiency of Bloch surface waves can be controlled in real time by designing the phase difference of polarization transformation coefficients and

Sci-Hub | Strong Polarization Transformation of Bloch Surface Waves. Physical Review Applied, 9 (2) | 10.1103/PhysRevApplied.9.024008 ↓ save donate to Sci-Hub from 1 USD and more Integrated photonics aims at on-chip controlling light in the micro- and nanoscale ranges utilizing the waveguide circuits, which include such basic elements as splitters, Ultrafast dynamics of Bloch surface wave polaritons in large-area 2D semiconductor monolayers at room temperature

收藏相关文章 Fano resonance and polarization transformation induced by interpolarization coupling of Bloch surface waves For this purpose, we fabricate a one-dimensional photonic crystal-based Bloch wave atom cell, where under different configurations of magnetic field, polarization ellipse of

In this work, the resonant coupling behaviors between the transverse-electric (TE) and transverse-magnetic (TM) Bloch surface waves (BSWs) on a dielectric multilayer have Different from metal-based MM, the Bloch surface wave (BSW) structure [11, 12] employs dielectric materials for significantly reducing the intrinsic loss. Due to the photonic bandgap Sci-Hub | Strong Polarization Transformation of Bloch Surface Waves. Physical Review Applied, 9 (2) | 10.1103/PhysRevApplied.9.024008 to open science ↓ save donate to Sci-Hub from 1 USD

Bloch surface waves (BSWs) are recently developing alternative to surface plasmon polaritons (SPPs). Due to dramatically enhanced propagation distance and strong Junxue Chen, Douguo Zhang*, Pei Wang, Hai Ming, Joseph R. Lakowicz, “Strong Polarization Transformation of Bloch Surface Waves”, Physical Review Applied, 9, 024008 (2018). Simulations show that the strong localized electrical field generated by Bloch surface waves can significantly enhance the graphene electro-absorption up to 99.64%.

Integration of multiple diversified functionalities into an ultracompact platform is crucial for the development of on-chip photonic devices. Recently, a promising all-dielectric two-dimensional Polarization is an intrinsic attribute of optical waves, so manipulating the polarization Review Applied 9 2 10 state of optical surface waves can be of a fundamental importance for the next-generation information The polarization transformation efficiency of Bloch surface waves can be controlled in real time by designing the phase difference of polarization transformation coefficients and

Bloch surface waves (BSWs) are sustained at the interface of a suitably designed one-dimensional (1D) dielectric photonic crystal and an ambient material. The elements that

Bloch Surface Waves in Open Fabry–Perot Microcavities
陈俊学副教授-桂林理工大学数学与统计学院
Strong Polarization Transformation of Bloch Surface Waves
Electron acceleration based on Bloch surface waves

Bloch surface waves (BSWs) are recently developing alternative to surface plasmon polaritons (SPPs). Due to dramatically enhanced propagation distance and strong Bloch surface wave (BSW) platforms are particularly interesting for light confinement and surface sensitivity, as an alternative to the metal-based surface plasmon

Junxue Chen, Douguo Zhang*, Pei Wang, Hai Ming, and Joseph R. Lakowicz, “Strong Polarization Transformation of Bloch Surface Waves”, Physical Review Applied, 9, 024008 出版年份 2018 全文链接首页学术论文论文搜索论文详情标题 Strong Polarization Transformation of Bloch Surface Waves 作者关键词 – 出版物姓名:张斗国地址:安徽省合肥市金寨路96号，中国科学技术大学电话:86- (0)551-63607991电子邮件:[email protected] 个人简介光学与

The polarization transformation efficiency of Bloch surface wave can be controlled in real time by designing the phase difference of polarization transformation coefficients and the phase delay

The polarization transformation efficiency of Bloch surface wave can be controlled in real time by designing the phase difference of polarization transformation coefficients and the phase delay As light–matter interactions are involved, Bloch Surface Waves (BSWs) may represent a viable alternative to plasmonic platforms, allowing easy wavelength and

Both experiments and simulations show that the polarization state and propagation path of the Bloch surface waves sustained on a dielectric multilayer, can be manipulated with the grooves

Theoretical models capable of accurately capturing the behaviour of plasmonic, Bloch surfaces waves are vital for the interpretation of experimental results. Here, the authors The polarization transformation efficiency of Bloch surface waves can be controlled in real time by designing of fundamental importance for the phase difference of polarization transformation coefficients and the phase delay Strong Polarization Transformation of Bloch Surface Waves. Polarization is an intrinsic attribute of optical waves, so manipulating the polarization state of optical surface waves can be of a

Polarization is an intrinsic attribute of optical waves, so manipulating the polarization state of optical surface waves can be of fundamental importance for next Polarization is an intrinsic attribute of optical waves, so manipulating the polarization state of optical surface waves can be of fundamental importance for next

NZVRSU

EUQG

Strong Polarization Transformation Of Bloch Surface Waves

Polarization controlled directional propagation of Bloch surface wave