-
nanoparticles with
refractive indices as low as 1.12,
which function as
antireflection coatings. By
using alternating layers of a low-index
material like silica...
-
coefficients of
surfaces can be
reduced to less than 0.2%,
producing an
antireflection (AR) coating. Conversely, the
reflectivity can be
increased to greater...
- and oil
films on water. It is also the
mechanism behind the
action of
antireflection coatings used on gl****es and
camera lenses. If the
thickness of the...
- thin layers. Then,
overlayers of a
transparent conducting oxide (TCO)
antireflection coating and
metal grid are used for
light and
current collection. Due...
- same speed,
allowing for a
higher temporal bandwidth for the fibre.
Antireflection coatings are
typically effective for
narrow ranges of
frequency or angle...
- surfaces. The two
opposite transmitting faces are
often coated with an
antireflection coating to
reduce spurious reflections. The
fifth face of the prism...
-
mirror reflects yellow light from the first-surface, but acts like an
antireflection coating to
purple light, thus
produced a
ghost reflection of the lightbulb...
-
display with a
matte surface.
Matte displays feature a light-scattering
antireflection layer,
which reduces reflectivity at the cost of
decreased contrast...
- Huang, J., Wang, X., Wang, Z.L. (2008). "Bio-inspired
fabrication of
antireflection nanostructures by
replicating fly eyes". Nanotechnology. 19 (2): 025602...
-
etalon (or a Gires-Tournois etalon).
Modern lasers often use rods with
antireflection coatings, or with the ends cut and
polished at Brewster's
angle instead...