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Reflector

A reflector is a surface or device designed to redirect electromagnetic, acoustic, or optical radiation by reflection. Reflectors are used to control the distribution of light, sound, or radio energy, improve efficiency, or create specific imaging and sensing effects. They can be passive components in lamps and antennas or independent devices in optical or RF systems.

Optical reflectors include mirrors and the reflectors used in telescopes, projectors, and illumination fixtures. A common

The performance of a reflector depends on geometry, surface quality, and coating. The law of reflection governs

Historically, reflectors range from polished metals in ancient times to silvered glass mirrors in the 19th

type
is
the
parabolic
reflector,
which
focuses
incoming
parallel
rays
to
a
focal
point,
or
a
dish-shaped
reflector
that
directs
energy
into
a
feed.
In
radio
and
radar,
reflector
designs
such
as
parabolic
dishes
and
corner
reflectors
serve
to
concentrate
signals
or
to
enhance
detectability
by
reflecting
signals
back
toward
the
source.
Acoustic
reflectors
shape
sound
fields
in
rooms
and
in
ultrasonic
or
sonar
contexts,
where
reflective
surfaces
influence
imaging
and
measurement.
the
direction
of
specular
reflection,
while
diffuse
reflectors
scatter
light
in
many
directions.
Reflective
coatings—silver
or
aluminum
on
glass
for
optical
mirrors,
or
metal
platings
for
RF
reflectors—raise
reflectivity
across
wavelength
ranges;
dielectric
coatings
can
tailor
spectral
response.
Material
choice
and
finish
determine
reflectivity,
durability,
and
environmental
resistance.
century.
Today,
reflectors
are
integral
to
lighting
fixtures,
automotive
headlights,
satellite
dishes,
radio
telescopes,
and
radar
systems.
In
summary,
a
reflector
redirects
energy
through
reflection
to
achieve
desired
optical,
acoustic,
or
RF
performance.