Add to ORKGWe show theoretically and experimentally that in the visible to near-IR part of the spectrum normal incidence transmission of circularly polarized light through a nano-structured anisotropic planar chiral metamaterial is asymmetric in the opposite directions. The new effect is fundamentally different from the conventional gyrotropy of bulk chiral media and Faraday effect. It has a resonance nature associated with a new type of excitation in the metal nano-structure: the enantiomeric sensitive plasmon
Plasmonic nanostructures with achiral, but asymmetric shapes can exhibit chiro-optical phenomena at ...
We report that directional asymmetry of transmission of circularly polarized waves, which previously...
We report the first experiential observation and theoretical analysis of the new phenomenon of plana...
We show theoretically and experimentally that in the visible to near-IR part of the spectrum normal ...
We show that in the visible to near-IR part of the spectrum, normal incidence transmission of circul...
We show that in the visible to near-IR part of the spectrum, normal incidence transmission of circul...
We report that normal incidence transmission of circularly polarized light through lossy anisotropic...
We report that small chiral asymmetry of the unit cell of planar metamaterials leads to strong reson...
Chiral metamaterials can have diverse technological applications, such as engineering strongly twist...
Chiral metamaterials can have diverse technological applications, such as engineering strongly twist...
Plasmonic nanostructures have demonstrated a remarkable ability to control light in ways never obser...
Strong chiroptical effects recently reported result from the interaction of light with chiral plasmo...
The plasmonic chiroptical effect has been used to manipulate chiral states of light, where the stron...
Chiral plasmonic nanoantennas manifest a strong asymmetric response to circularly polarized light. P...
As natural chiral materials demonstrate limited circularly dichroic contrasts, enhancement of these ...
Plasmonic nanostructures with achiral, but asymmetric shapes can exhibit chiro-optical phenomena at ...
We report that directional asymmetry of transmission of circularly polarized waves, which previously...
We report the first experiential observation and theoretical analysis of the new phenomenon of plana...
We show theoretically and experimentally that in the visible to near-IR part of the spectrum normal ...
We show that in the visible to near-IR part of the spectrum, normal incidence transmission of circul...
We show that in the visible to near-IR part of the spectrum, normal incidence transmission of circul...
We report that normal incidence transmission of circularly polarized light through lossy anisotropic...
We report that small chiral asymmetry of the unit cell of planar metamaterials leads to strong reson...
Chiral metamaterials can have diverse technological applications, such as engineering strongly twist...
Chiral metamaterials can have diverse technological applications, such as engineering strongly twist...
Plasmonic nanostructures have demonstrated a remarkable ability to control light in ways never obser...
Strong chiroptical effects recently reported result from the interaction of light with chiral plasmo...
The plasmonic chiroptical effect has been used to manipulate chiral states of light, where the stron...
Chiral plasmonic nanoantennas manifest a strong asymmetric response to circularly polarized light. P...
As natural chiral materials demonstrate limited circularly dichroic contrasts, enhancement of these ...
Plasmonic nanostructures with achiral, but asymmetric shapes can exhibit chiro-optical phenomena at ...
We report that directional asymmetry of transmission of circularly polarized waves, which previously...
We report the first experiential observation and theoretical analysis of the new phenomenon of plana...