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Diffract

Diffract is a verb describing the action of a wave bending and spreading as it encounters an obstacle or passes through a narrow aperture. The term is used across wave phenomena, including light, sound, water waves, and matter waves such as electrons and neutrons. The word derives from Latin diffrangere, meaning to break apart, and was adopted to describe how waves spread beyond barriers or around edges.

Mechanism and description: Diffraction is commonly explained by the Huygens-Fresnel principle, which treats every point on

Examples and related concepts: A narrow slit produces a central bright maximum flanked by minima; two closely

Applications and significance: Diffraction sets fundamental limits on optical resolution, described by criteria such as the

a
wavefront
as
a
secondary
source
of
wavelets.
The
superposition
of
these
wavelets
produces
the
observed
field,
with
interference
between
them
creating
regions
of
enhanced
or
diminished
intensity.
The
resulting
patterns
depend
on
wavelength
and
geometry
of
the
obstacle
or
aperture.
In
optics,
diffraction
is
often
discussed
in
terms
of
single-slit,
double-slit,
and
diffraction-grating
configurations,
each
producing
characteristic
interference
fringes.
spaced
slits
create
a
clear
set
of
fringes;
diffraction
gratings
separate
light
into
its
component
wavelengths.
Diffraction
phenomena
are
not
limited
to
light;
they
are
observed
in
sound
and
water
waves
and
are
also
signatures
of
wave–particle
duality
in
quantum
matter.
Rayleigh
criterion.
Diffractive
optics
use
engineered
structures
to
shape
wavefronts
for
lenses
and
imaging.
In
science,
diffraction
patterns
of
X-rays,
electrons,
and
neutrons
reveal
crystal
structures
and
atomic
spacings,
while
Fourier
analysis
provides
a
mathematical
framework
for
interpreting
diffraction
data.