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dichroïsme

Dichroïsme, the French term for dichroism, is the optical property of certain materials to absorb light differently depending on the polarization or the direction of the light. In optics and spectroscopy, a dichroic material may transmit one polarization state more efficiently than another, leading to observable color or brightness changes when viewed through polarized light or as the sample is rotated relative to the light source. Different formulations of the concept distinguish absorption that depends on linear polarization from absorption that depends on circular polarization.

Two principal forms are linear dichroism, where absorption varies with the orientation of linear polarization relative

Measurement and examples: dichroism is typically studied with spectrophotometry using polarizers or with circular dichroism spectroscopy

Applications include polarizing filters, sunglasses, and display technologies, as well as analytical techniques in chemistry and

to
the
material’s
anisotropy,
and
circular
dichroism,
where
absorption
differs
between
left-
and
right-handed
circularly
polarized
light.
In
broader
usage,
dichroism
can
refer
to
any
polarization-dependent
absorption;
in
mineralogy
and
gemology,
related
phenomena
are
sometimes
described
as
pleochroism,
which
notes
color
changes
with
viewing
direction.
to
probe
chiral
molecules.
Minerals
such
as
certain
tourmalines
show
pleochroism,
appearing
to
change
color
with
different
crystal
directions;
organic
dyes,
liquid-crystal
samples,
and
biological
macromolecules
can
also
exhibit
dichroic
effects.
Circular
dichroism
is
widely
used
in
biochemistry
to
infer
secondary
structure
in
proteins
and
other
biomolecules.
biology.
Dichroïsme
provides
a
window
into
molecular
orientation,
crystal
structure,
and
chiroptical
properties,
supporting
both
practical
devices
and
scientific
investigations.