This new NASA/ESA Hubble Space
Telescope image shows four of the seven members of galaxy group HCG 16.
This quartet is composed of (from left to right) NGC 839, NGC 838, NGC
835, and NGC 833 -- four of the seven galaxies that make up the entire
group. They shine brightly with their glowing golden centers and wispy
tails of gas, set against a background dotted with much more distant
galaxies.
Credit: NASA, ESA, ESO
Acknowledgement: Jane Charlton (Pennsylvania State University, USA)
This quartet is composed of (from left to right) NGC 839, NGC 838,
NGC 835, and NGC 833 -- four of the seven galaxies that make up the
entire group. They shine brightly with their glowing golden centres and
wispy tails of gas,* set against a background dotted with much more
distant galaxies.
Compact groups represent some of the densest concentrations of
galaxies known in the Universe, making them perfect laboratories for
studying weird and wonderful phenomena. Hickson Compact Groups in
particular, as classified by astronomer Paul Hickson in the 1980s, are
surprisingly numerous, and are thought to contain an unusually high
number of galaxies with strange properties and behaviours.
HCG 16 is certainly no exception. The galaxies within it are bursting
with dramatic knots of star formation and intensely bright central
regions. Within this single group, astronomers have found two LINERs,
one Seyfert 2 galaxy and three starburst galaxies.
These three types of galaxy are all quite different, and can each
help us to explore something different about the cosmos. Starbursts are
dynamic galaxies that produce new stars at much greater rates than their
peers. LINERs (Low-Ionisation Nuclear Emission-line Regions) contain
heated gas at their cores, which spew out radiation. In this image NGC
839 is a LINER-type and luminous infrared galaxy and its companion NGC
838 is a LINER-type galaxy with lots of starburst activity and no
central black hole.
The remaining galaxies, NGC 835 and NGC 833, are both Seyfert 2
galaxies which have incredibly luminous cores when observed at other
wavelengths than in the visible light, and are home to active
supermassive black holes.
The X-ray emission emanating from the black hole within NGC 833 (far
right) is so high that it suggests the galaxy has been stripped of gas
and dust by past interactions with other galaxies. It is not alone in
having a violent history -- the morphology of NGC 839 (far left) is
likely due to a galactic merger in the recent past, and long tails of
glowing gas can be seen stretching away from the galaxies on the right
of the image.
This new image uses observations from Hubble's Wide Field Planetary
Camera 2, combined with data from the ESO Multi-Mode Instrument
installed on the European Southern Observatory's New Technology
Telescope in Chile. A version of this image was entered into the
Hubble's Hidden Treasures image processing competition by contestants
Jean-Christophe Lambry and Marc Canale.
* A tidal tail is a thin, elongated region of stars and interstellar
gas that extends into space from a galaxy. They are a result of the
strong gravitational forces around interacting galaxies.
Story Source:
The above post is reprinted from
materials provided by
ESA/Hubble Information Centre.
Note: Materials may be edited for content and length.
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