Andrew Yee[_1_]
September 16th 08, 03:19 AM
ESA News
http://www.esa.int
25 August 2008
XMM-Newton's massive discovery
ESA's orbiting X-ray observatory XMM-Newton has discovered the most massive
cluster of galaxies seen in the distant Universe until now. The galaxy
cluster is so big that there can only be a handful of them at that distance,
making this a rare catch indeed. The discovery confirms the existence of
dark energy.
The newly-discovered monster, known only by the catalogue number 2XMM
J083026+524133, is estimated to contain as much mass as a thousand large
galaxies. Much of it is in the form of 100-million-degree hot gas. It was
first observed by chance as XMM-Newton was studying another celestial object
and 2XMM J083026+524133 was placed in a catalogue for a future follow-up.
Georg Lamer, Astrophysikalisches Institut Potsdam, Germany, and a team of
astronomers discovered the record-breaking cluster as they were performing a
systematic analysis of the catalogue. Based on 3500 observations performed
with XMM-Newton's European Photon Imaging Camera (EPIC) covering about 1% of
the entire sky, the catalogue contains more than 190 000 individual X-ray
sources. The team were looking for extended patches of X-rays that could
either be nearby galaxies or distant clusters of galaxies.
J083026+524133 stood out because it was so bright. While checking visual
images from the Sloan Digital Sky Survey, the team could not find any
obvious nearby galaxy in that location. So they turned to the Large
Binocular Telescope in Arizona and took a deep exposure.
Sure enough, they found a cluster of galaxies. So the team calculated a
distance of 7.7 thousand million light-years and the cluster's mass using
the XMM-Newton data. This was not a surprise because XMM-Newton is sensitive
enough to routinely find galaxy clusters at this distance. The surprise was
that the cluster contains a thousand times the mass of our own galaxy, the
Milky Way.
"Such massive galaxy clusters are thought to be rare objects in the distant
Universe. They can be used to test cosmological theories," says Lamer.
Indeed, the very presence of this cluster confirms the existence of a
mysterious component of the Universe called dark energy.
No one knows what dark energy is, but it is causing the expansion of the
Universe to accelerate. This hampers the growth of massive galaxy clusters
in more recent times, indicating that they must have formed earlier in the
Universe. "The existence of the cluster can only be explained with dark
energy," says Lamer.
Yet he does not expect to find more of them in the XMM-Newton catalogue.
"According to the current cosmological theories, we should only expect to
find this one cluster in the 1% of sky that we have searched," says Lamer.
In other words, the team have found a cosmic 'needle in a haystack'.
Notes for editors:
'2XMM J083026+524133: The most X-ray luminous cluster at redshift 1' by G.
Lamer, M. Hoeft, J. Kohnert, A. Schwope, and J. Storm will be published in a
forthcoming issue of the journal Astronomy & Astrophysics.
The XMM-Newton science teams are based in several European and US
institutes, grouped into three instrument teams and the XMM-Newton Survey
Science Centre (SSC). Science operations are managed at ESA's European Space
Astronomy Centre (ESAC), at Villanueva de la Cada near Madrid, Spain.
Spacecraft operations are managed at ESA's European Space Operations Centre
(ESOC) in Darmstadt, Germany.
[NOTE: Images and weblinks supporting this release are available at
http://www.esa.int/esaCP/SEMY70XIPIF_index_1.html ]
http://www.esa.int
25 August 2008
XMM-Newton's massive discovery
ESA's orbiting X-ray observatory XMM-Newton has discovered the most massive
cluster of galaxies seen in the distant Universe until now. The galaxy
cluster is so big that there can only be a handful of them at that distance,
making this a rare catch indeed. The discovery confirms the existence of
dark energy.
The newly-discovered monster, known only by the catalogue number 2XMM
J083026+524133, is estimated to contain as much mass as a thousand large
galaxies. Much of it is in the form of 100-million-degree hot gas. It was
first observed by chance as XMM-Newton was studying another celestial object
and 2XMM J083026+524133 was placed in a catalogue for a future follow-up.
Georg Lamer, Astrophysikalisches Institut Potsdam, Germany, and a team of
astronomers discovered the record-breaking cluster as they were performing a
systematic analysis of the catalogue. Based on 3500 observations performed
with XMM-Newton's European Photon Imaging Camera (EPIC) covering about 1% of
the entire sky, the catalogue contains more than 190 000 individual X-ray
sources. The team were looking for extended patches of X-rays that could
either be nearby galaxies or distant clusters of galaxies.
J083026+524133 stood out because it was so bright. While checking visual
images from the Sloan Digital Sky Survey, the team could not find any
obvious nearby galaxy in that location. So they turned to the Large
Binocular Telescope in Arizona and took a deep exposure.
Sure enough, they found a cluster of galaxies. So the team calculated a
distance of 7.7 thousand million light-years and the cluster's mass using
the XMM-Newton data. This was not a surprise because XMM-Newton is sensitive
enough to routinely find galaxy clusters at this distance. The surprise was
that the cluster contains a thousand times the mass of our own galaxy, the
Milky Way.
"Such massive galaxy clusters are thought to be rare objects in the distant
Universe. They can be used to test cosmological theories," says Lamer.
Indeed, the very presence of this cluster confirms the existence of a
mysterious component of the Universe called dark energy.
No one knows what dark energy is, but it is causing the expansion of the
Universe to accelerate. This hampers the growth of massive galaxy clusters
in more recent times, indicating that they must have formed earlier in the
Universe. "The existence of the cluster can only be explained with dark
energy," says Lamer.
Yet he does not expect to find more of them in the XMM-Newton catalogue.
"According to the current cosmological theories, we should only expect to
find this one cluster in the 1% of sky that we have searched," says Lamer.
In other words, the team have found a cosmic 'needle in a haystack'.
Notes for editors:
'2XMM J083026+524133: The most X-ray luminous cluster at redshift 1' by G.
Lamer, M. Hoeft, J. Kohnert, A. Schwope, and J. Storm will be published in a
forthcoming issue of the journal Astronomy & Astrophysics.
The XMM-Newton science teams are based in several European and US
institutes, grouped into three instrument teams and the XMM-Newton Survey
Science Centre (SSC). Science operations are managed at ESA's European Space
Astronomy Centre (ESAC), at Villanueva de la Cada near Madrid, Spain.
Spacecraft operations are managed at ESA's European Space Operations Centre
(ESOC) in Darmstadt, Germany.
[NOTE: Images and weblinks supporting this release are available at
http://www.esa.int/esaCP/SEMY70XIPIF_index_1.html ]