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Microscope

A microscope is an instrument designed to magnify small objects and reveal details that are not visible to the naked eye. By combining lenses or other imaging technologies, a microscope increases both apparent size and the ability to distinguish fine structures. Common metrics include magnification and resolution, the latter describing the smallest detail that can be discerned. In optical systems, light or other radiation is focused through objectives and eyepieces, with illumination and a stage to hold the specimen.

There are several major families of microscopes. Light (optical) microscopes use visible light and glass lenses.

Electron microscopes use beams of electrons rather than light, achieving far higher resolution. Transmission electron microscopes

Scanning probe microscopes map surfaces at the atomic level without optical lenses. The atomic force microscope

Historical developments trace the first practical devices to the late 16th century, with significant improvements by

Compound
microscopes
typically
employ
multiple
lenses
to
achieve
high
magnification,
while
stereo
or
dissecting
microscopes
provide
lower
magnification
with
a
three-dimensional
view
for
larger,
living
specimens.
Fluorescence,
phase-contrast,
and
differential
interference
contrast
techniques
enhance
contrast
for
transparent
or
unstained
samples.
(TEM)
reveal
internal
structures
at
the
nanometer
scale,
whereas
scanning
electron
microscopes
(SEM)
produce
detailed
three-dimensional
surface
images.
Both
require
vacuum
systems
and
special
sample
preparation.
(AFM)
and
scanning
tunneling
microscope
(STM)
are
prominent
examples,
capable
of
imaging
individual
atoms
on
material
surfaces.
figures
such
as
Antonie
van
Leeuwenhoek
and
Robert
Hooke.
Today,
microscopes
are
essential
across
biology,
medicine,
materials
science,
and
beyond,
supported
by
digital
imaging,
automation,
and
diverse
contrast
techniques.