We theoretically analyze the second harmonic generation capacity of two-dimensional
periodic metamaterials comprising sub-wavelength resonators strongly coupled to …

Epsilon-near-zero (ENZ) modes arising from condensed-matter excitations such as phonons
and plasmons are a new path for tailoring light-matter interactions at the nanoscale …

Metallic nanocavities with deep subwavelength mode volumes can lead to dramatic
changes in the behavior of emitters placed in their vicinity. This collocation and interaction …

The strong optical anisotropy of hyperbolic metamaterials has enabled remarkable optical
behavior such as negative refraction, enhancement of the photonic density of states …

We present the design, realization, and characterization of optical strong light–matter
coupling between intersubband transitions within a semiconductor heterostructures and …

The ability to control the light-matter interaction with an external stimulus is a very active
area of research since it creates exciting new opportunities for designing optoelectronic …

Strong light-matter coupling has recently been demonstrated in subwavelength volumes by
coupling engineered optical transitions in semiconductor heterostructures (eg, quantum …

Considering the power constrained scaling of silicon complementary metal-oxide-
semiconductor technology, the use of high mobility III–V compound semiconductors such as …

A novel array of slits design combining the nano-slit grating and dielectric-metal is proposed
to obtain giant and tunable electric field enhancement in the terahertz regime. The maximum …

The interaction between intersubband resonances (ISRs) and metamaterial microcavities
constitutes a strongly coupled system where new resonances form that depend on the …