Add to ORKGSpin-valley polarization in atomically thin semiconductors opens a new perspective to explore optical chirality. Here we summarize our progress on the exploitation of 2D semiconductors as sources and probes for chiral nano-optics. We show how competing optical transitions in few-layer materials allow a high degree of circular polarization. Second, in order to enhance polarization, we design achiral nanophotonic resonators that satisfy the conditions needed for improving chiral light emission as a path towards efficient sources of spin-valley-polarized light.</p
Using a modal matching theory, we demonstrate the generation of short-range, chiral electromagnetic ...
Chiral metallic nanostructures can generate evanescent fields which are more highly twisted than cir...
Circularly polarized light (CPL) is currently receiving much attention as a key ingredient for next-...
The interplay of light and matter at the nanoscale has spurred recent advancements across a broad sw...
Valley polarization is among the most critical attributes of atomically thin materials. However, inc...
A first quantum-mechanical theory of chiral semiconductor nanoscrolls is presented. The theory allow...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
We report on mechanical action on light polarization, and its back-action effect, in a chiral metasu...
We show that the stacks of two-dimensional semiconductor crystals with the chiral packing exhibit op...
Geometrical chirality in a planar structure leads to intriguing optical phenomena such as polarizati...
Chiral metallic nanostructures can generate evanescent fields which are more highly twisted than cir...
Chiral matter is inherently handed in its structural arrangement. Its distinct interaction with chir...
Using a modal matching theory, we demonstrate the generation of short-range, chiral electromagnetic ...
Chiral metallic nanostructures can generate evanescent fields which are more highly twisted than cir...
Circularly polarized light (CPL) is currently receiving much attention as a key ingredient for next-...
The interplay of light and matter at the nanoscale has spurred recent advancements across a broad sw...
Valley polarization is among the most critical attributes of atomically thin materials. However, inc...
A first quantum-mechanical theory of chiral semiconductor nanoscrolls is presented. The theory allow...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
The interaction of circularly polarized light with matter is the basis for molecular circular dichro...
We report on mechanical action on light polarization, and its back-action effect, in a chiral metasu...
We show that the stacks of two-dimensional semiconductor crystals with the chiral packing exhibit op...
Geometrical chirality in a planar structure leads to intriguing optical phenomena such as polarizati...
Chiral metallic nanostructures can generate evanescent fields which are more highly twisted than cir...
Chiral matter is inherently handed in its structural arrangement. Its distinct interaction with chir...
Using a modal matching theory, we demonstrate the generation of short-range, chiral electromagnetic ...
Chiral metallic nanostructures can generate evanescent fields which are more highly twisted than cir...
Circularly polarized light (CPL) is currently receiving much attention as a key ingredient for next-...