From photonic crystals to seismic metamaterials: A review via phononic crystals and acoustic metamaterials
The advancement in electromagnetic metamaterials, which commenced three decades ago,
experienced a rapid transformation into acoustic and elastic systems in the forms of …
experienced a rapid transformation into acoustic and elastic systems in the forms of …
Metamaterials with analogous electromagnetically induced transparency and related sensor designs—A review
Electromagnetically induced transparency (EIT) originates from quantum physics, where a
narrow transparent peak appears in the opaque band due to the destructive interference …
narrow transparent peak appears in the opaque band due to the destructive interference …
Textile-integrated metamaterials for near-field multibody area networks
Wearable and implantable sensors can be linked together to create multi-node wireless
networks that could be of use in the development of advanced healthcare monitoring …
networks that could be of use in the development of advanced healthcare monitoring …
Continuous spectral and coupling-strength encoding with dual-gradient metasurfaces
To control and enhance light–matter interactions at the nanoscale, two parameters are
central: the spectral overlap between an optical cavity mode and the material's spectral …
central: the spectral overlap between an optical cavity mode and the material's spectral …
Programmable rainbow trapping and band-gap enhancement via spatial group-velocity tailoring in elastic metamaterials
We numerically and experimentally investigate spatially programmable rainbow trapping
and band-gap enhancement using a graded piezoelectric metamaterial beam with unit cells …
and band-gap enhancement using a graded piezoelectric metamaterial beam with unit cells …
Amber rainbow ribbon effect in broadband optical metamaterials
J Zhao, X Wu, D Zhang, X Xu, X Wang… - Nature …, 2024 - nature.com
Using the trapped rainbow effect to slow down or even stop light has been widely studied.
However, high loss and energy leakage severely limited the development of rainbow …
However, high loss and energy leakage severely limited the development of rainbow …
Gradient High‐Q Dielectric Metasurfaces for Broadband Sensing and Control of Vibrational Light‐Matter Coupling
Surface‐enhanced infrared absorption spectroscopy (SEIRA) has emerged as a powerful
technique for ultrasensitive chemical‐specific analysis. SEIRA can be realized by employing …
technique for ultrasensitive chemical‐specific analysis. SEIRA can be realized by employing …
Graphene-based multiband chiral metamaterial absorbers comprised of square split-ring resonator arrays with different numbers of gaps, and their equivalent circuit …
S Asgari, T Fabritius - Ieee Access, 2022 - ieeexplore.ieee.org
The equivalent circuit model (ECM) is developed by using a MATLAB code to analyze
graphene-based multi-band chiral metamaterial absorbers composing graphene-based …
graphene-based multi-band chiral metamaterial absorbers composing graphene-based …
Perspective on the topological rainbow
S Elshahat, C Wang, H Zhang, C Lu - Applied Physics Letters, 2021 - pubs.aip.org
Topological photonics provides a robust platform for the study of nanophotonic devices. The
topological rainbow can be used to separate, slow, and trap topological photonic states of …
topological rainbow can be used to separate, slow, and trap topological photonic states of …
Spectral Tuning of High‐Harmonic Generation with Resonance‐Gradient Metasurfaces
High‐index dielectric subwavelength structures and metasurfaces are capable of enhancing
light‐matter interaction by orders of magnitude via geometry‐dependent optical resonances …
light‐matter interaction by orders of magnitude via geometry‐dependent optical resonances …