THE IMPENDING DESTRUCTION OF NGC 1427A
What happens when a galaxy falls in with the wrong
crowd? The
irregular galaxy NGC 1427A is a spectacular example
of the resulting stellar rumble. Under the gravitational
grasp of a large gang of
galaxies, called the Fornax cluster, the small bluish
galaxy is
plunging headlong into the group at 600 km/sec or
nearly 400 mi/sec.
NGC 1427A, which is located some 62 million light-years
away from
Earth in the direction of the constellation Fornax,
shows numerous hot,
blue stars in this newly released image obtained
by the Hubble Space
Telescope. These blue stars have been formed very
recently, showing
that star formation is occurring extensively throughout
the galaxy.
As the galaxy rams into the center of the Fornax
cluster located off
the image to the upper left the galaxy becomes distorted,
forming an
arrowhead in the direction of its high-velocity
motion.
Galaxy clusters, like the Fornax cluster, contain
hundreds or even
thousands of individual galaxies. Within the Fornax
cluster, there is
a considerable amount of gas lying between the galaxies.
When the gas
within NGC 1427A collides with the Fornax gas, it
is compressed to the
point that it starts to collapse under its own gravity.
This leads to
formation of the myriad of new stars seen across
NGC 1427A. The tidal
forces of nearby galaxies in the cluster may also
play a role in
triggering star formation on such a massive scale.
NGC 1427A will not survive long as an identifiable
galaxy passing
through the cluster. Within the next billion years,
it will be
completely disrupted, spilling its stars and remaining
gas into
intergalactic space within the Fornax cluster.
To the upper left of NGC 1427A is a background
galaxy that happens
to lie near Hubble's line of sight but is some 25
times further away. In
contrast to the irregularly shaped NGC 1427A, the
background galaxy
is a magnificent spiral, somewhat similar to our
own Milky Way. Stars
are forming in its symmetric pinwheel-shaped spiral
arms, which can be
traced into the galaxy's bright nucleus. This galaxy
is, however, less
dominated by very young stars than NGC 1427A, giving
it an overall
yellower color. At even greater distances background
galaxies of various
shapes and colors are scattered across the Hubble
image.
The Hubble Space Telescope's Advanced Camera for
Surveys was used
to obtain images of NGC 1427A in visible (green),
red, and infrared
filters in January 2003. These images were then
combined by the Hubble
Heritage team to create the color rendition shown
here. Astronomers
are using the data to investigate the star-formation
patterns
throughout the object, to verify a prediction that
there should be a
relation between the ages of stars and their positions
within the galaxy.
This will help them understand how the gravitational
influence of
the cluster has affected the internal workings of
this galaxy, and
how this galaxy has responded to passing through
the cluster
environment.
The disruption of objects like NGC 1427A, and even
larger galaxies
like our own Milky Way, is an integral part of the
formation and
evolution of galaxy clusters. Such events are believed
to have been
very common during the early evolution of the universe,
but the rate
of galaxy destruction is tapering off at the present
time. Thus the
impending destruction of NGC 1427A provides a glimpse
of an early
and much more chaotic time in our universe.
Credit: NASA, ESA, and The Hubble Heritage Team
(STScI/AURA)
Acknowledgment: M. Gregg (Univ. Calif.-Davis and
Inst. for Geophysics and Planetary Physics, Lawrence
Livermore Natl. Lab.) |
