Hubble Captures Massive Dead Disk Galaxy that
Challenges Theories of Galaxy Evolution
NASA -- By combining the power of a
"natural lens" in space with the capability of NASA's Hubble Space
Telescope, astronomers made a surprising discovery—the first example of a
compact yet massive, fast-spinning, disk-shaped galaxy that stopped making
stars only a few billion years after the big bang.
Finding such a galaxy early in the
history of the universe challenges the current understanding of how massive
galaxies form and evolve, say researchers.
When Hubble photographed the galaxy,
astronomers expected to see a chaotic ball of stars formed through galaxies
merging together. Instead, they saw evidence that the stars were born in a
pancake-shaped disk.
This
is the first direct observational evidence that at least some of the earliest
so-called "dead" galaxies — where star formation stopped — somehow
evolve from a Milky Way-shaped disk into the giant elliptical galaxies we see
today.
This
is a surprise because elliptical galaxies contain older stars, while spiral
galaxies typically contain younger blue stars. At least some of these early
"dead" disk galaxies must have gone through major makeovers. They not
only changed their structure, but also the motions of their stars to make a
shape of an elliptical galaxy.
"This new insight may force us to
rethink the whole cosmological context of how galaxies burn out early on and
evolve into local elliptical-shaped galaxies," said study leader Sune Toft
of the Dark Cosmology
Center at the Niels Bohr Institute, University of Copenhagen , Denmark
Previous studies of distant dead
galaxies have assumed that their structure is similar to the local elliptical
galaxies they will evolve into. Confirming this assumption in principle
requires more powerful space telescopes than are currently available. However,
through the phenomenon known as "gravitational lensing," a massive,
foreground cluster of galaxies acts as a natural "zoom lens" in space
by magnifying and stretching images of far more distant background galaxies. By
joining this natural lens with the resolving power of Hubble, scientists were
able to see into the center of the dead galaxy.
The remote galaxy is three times as
massive as the Milky Way but only half the size. Rotational velocity
measurements made with the European Southern Observatory's Very Large Telescope
(VLT) showed that the disk galaxy is spinning more than twice as fast as the
Milky Way.
Using archival data from the Cluster
Lensing And Supernova survey with Hubble (CLASH), Toft and his team were able
to determine the stellar mass, star-formation rate, and the ages of the stars.
Why this galaxy stopped forming stars
is still unknown. It may be the result of an active galactic nucleus, where
energy is gushing from a supermassive black hole. This energy inhibits star
formation by heating the gas or expelling it from the galaxy. Or it may be the
result of the cold gas streaming onto the galaxy being rapidly compressed and
heated up, preventing it from cooling down into star-forming clouds in the
galaxy's center.
But how do these young, massive,
compact disks evolve into the elliptical galaxies we see in the present-day
universe? "Probably through mergers," Toft said. "If these
galaxies grow through merging with minor companions, and these minor companions
come in large numbers and from all sorts of different angles onto the galaxy,
this would eventually randomize the orbits of stars in the galaxies. You could
also imagine major mergers. This would definitely also destroy the ordered
motion of the stars."
The findings are published in the June
22 issue of the journal Nature. Toft
and his team hope to use NASA's upcoming James Webb Space Telescope to look for
a larger sample of such galaxies.
The Hubble Space Telescope is a
project of international cooperation between NASA and ESA (European Space
Agency). NASA's Goddard Space Flight Center in Greenbelt , Maryland Baltimore , Maryland Washington , D.C.
The Very Large Telescope is a
telescope facility operated by the European Southern Observatory on Cerro
Paranal in the Atacama Desert of Northern Chile.
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