Non-radiating anapole state in dielectric nanostructures and metamaterials
Abstract
Abstract Plasmonic metamaterials and all-dielectric metamaterials, based on metallic or dielectric nanostructures, can concentrate light into subwavelength regions and manipulate light at nanometre length scales through the collective oscillation of free electrons in a metal (plasmon resonances) or from the oscillation of polarization charges and the circular displacement current that are excited inside dielectric material (Mie resonances). However, the plasmonic nanostructures undergo large Joule losses and inevitable thermal heating. The all-dielectric metamaterials may overcome the critical issue of heat dissipation and could bridge the gap between fundamental nanoscience and devices. The dielectric…
Citation impact
- FWCI
- 23.36
- Percentile
- 100%
- References
- 154
Authors
3- JWJunqiao WangCorresponding
Zhengzhou University
- JYJinyuan Yang
Zhengzhou University
- YMYewen Mei
Zhengzhou University
Topics & keywords
- Metamaterial
- Dielectric
- Physics
- Plasmon
- Nanophotonics
- Excited state
- Excitation
- Dipole