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observatorier

Observatorier are facilities designed for systematic observation of natural phenomena, especially celestial objects, but also atmospheric and geophysical data. They host instruments such as optical and infrared telescopes, cameras, spectrographs, and radio receivers, along with supporting systems for tracking, calibration, and data processing. Observatorier may be ground-based or space-based, and they can focus on research, education, or public outreach.

They emerged from early astronomy and navigation needs; ancient sites and medieval instruments evolved into formal

Typical observatorier consist of a telescope or array housed in a protective enclosure, precise mounts and

Types include optical and infrared, radio and millimeter-wave, solar, and space-based observatories. Notable examples include optical

Observatorier drive scientific discovery by mapping the cosmos, detecting exoplanets, studying black holes, and probing cosmic

observatories
in
the
early
modern
period,
with
Greenwich
as
a
landmark.
The
19th
and
20th
centuries
saw
rapid
expansion
of
optical
telescopes,
larger
apertures,
and
global
networks.
The
late
20th
century
introduced
space-based
observatories
and
advances
such
as
interferometry
and
adaptive
optics,
broadening
access
to
wavelengths
otherwise
blocked
by
Earth’s
atmosphere.
tracking
systems,
a
suite
of
instruments,
a
control
room,
and
data
archives.
Site
selection
emphasizes
dark
skies,
stable
weather,
and
infrastructure;
many
facilities
are
part
of
international
consortia
or
national
programs.
facilities
at
Mauna
Kea,
Paranal,
and
La
Silla,
as
well
as
space
telescopes
such
as
Hubble
and
James
Webb.
Some
observatorier
are
dedicated
to
public
outreach
and
education,
while
others
form
integral
parts
of
global
research
networks.
evolution,
while
also
supporting
training,
collaboration,
and
data-intensive
science
across
disciplines.