- The
fundamental difference between a
conventional optical cavity and
microcavities is the
effects that
arise from the
small dimensions of the system, but...
-
located electromagnetically interacting microcavities or "photonic atoms"." "Optically
coupled microcavities have
emerged as
photonic structures with...
-
essentially limited by the
diffraction limit.
Famous examples of high-Q
microcavities are
micropillar cavities,
microtoroid resonators, photonic-crystal cavities...
-
geometries used in
microphotonics including optical waveguides,
optical microcavities, and Arra****
waveguide gratings.
Photonic crystals are non-conducting...
- Caltech.
Vahala is
known for his
studies of
devices called optical microcavities and
their application to a wide
range of
subjects including miniature...
-
array of
metallic rods,
metallic nanoparticles, a
lattice of
coupled microcavities, or an
optical lattice.
Graphene is a
transparent and
flexible conductor...
-
layer (roughly 50 μm) at the
surface of
cartilage and also
seeps into
microcavities and
irregularities in the
articular cartilage surface,
filling all empty...
- et al., at CNR
NANOTEC Institute of Nanotechnology,
using an
organic microcavity supporting stable Frenkel exciton-polaritons at room temperature. In...
- Jiang, Dong & Yang (November 2008). "Coupling Whispering-Gallery-Mode
Microcavities With
Modal Coupling Mechanism". IEEE
Journal of
Quantum Electronics...
- low-dimensional systems, for
example in dye-solution
filled optical microcavities with a
distance between the
resonator mirrors in the
wavelength range...
