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waveplates

Waveplates, or retarders, are optical elements made from birefringent materials that introduce a fixed phase delay between two orthogonal polarization components of light. By adjusting this phase delay, a waveplate changes the polarization state of light without significantly altering its direction or intensity.

Birefringence causes light polarized along two principal axes—fast and slow—to travel at different speeds. As the

Common materials include quartz, calcite, mica, and magnesium fluoride, chosen for known birefringence and low absorption.

Applications span polarization control in laser optics, microscopy, interferometry, ellipsometry, optical communication, and imaging polarimetry. Practical

two
components
propagate
through
the
plate,
they
accumulate
a
relative
phase
delay
δ
given
by
δ
=
(2π/λ)
Δn
t,
where
Δn
=
n_e
−
n_o
is
the
birefringence,
t
is
thickness,
and
λ
is
the
wavelength
in
vacuum.
When
δ
equals
π/2,
the
device
is
a
quarter-wave
plate;
when
δ
equals
π,
it
is
a
half-wave
plate.
The
orientation
of
the
plate’s
fast
axis
relative
to
the
input
polarization
determines
the
output
state:
a
quarter-wave
plate
at
45
degrees
converts
linear
to
circular
polarization,
while
a
half-wave
plate
rotates
linear
polarization
by
2θ,
where
θ
is
the
angle
between
the
input
polarization
direction
and
the
fast
axis.
Waveplates
come
in
various
designs,
such
as
zero-order,
multiple-order,
and
achromatic
(broadband)
types.
Achromatic
designs
stack
plates
with
compensating
retardances
to
maintain
near-constant
retardation
over
a
range
of
wavelengths.
considerations
include
wavelength
sensitivity,
temperature
dependence,
and
the
need
for
anti-reflection
coatings
and
precise
axis
alignment.