Nanoscopic chiroptics studies the spin-dependent asymmetric light–matter interactions at
the nanoscale, where the asymmetry can stem from the intrinsic properties of materials …

Polaritonic chemistry is an interdisciplinary emerging field that presents several challenges
and opportunities in chemistry, physics, and engineering. A systematic review of polaritonic …

Strong coupling between resonant states is usually achieved by modulating intrinsic
parameters of optical systems, eg, the refractive index of constituent materials or structural …

We report the publication of treams, a new software for electromagnetic scattering
computations based on the T-matrix method. Besides conventional T-matrix calculations for …

Coupling between light and material excitations underlies a wide range of optical
phenomena. Polaritons are eigenstates of a coupled system with a hybridized wave …

Geometrical chirality is a universal property encountered on very different length scales
ranging from geometrical shapes of living organisms to drug and DNA molecules. The …

Nanophotonic chiral sensing has recently attracted a lot of attention. The idea is to exploit
the strong light–matter interaction in nanophotonic resonators to determine the …

Realizing polariton states with high levels of chirality offers exciting prospects for quantum
information, sensing, and lasing applications. Such chirality must emanate from either the …

The directionality and polarization of light show peculiar properties when the scattering by a
dielectric sphere can be described exclusively by electric and magnetic dipolar modes …

The recent fabrication advances in nanoscience and molecular materials point toward a new
era where material properties are tailored in silico for target applications. To fully realize this …