Andrew Yee
May 15th 06, 04:42 AM
Sloan Digital Sky Survey
Contacts:
Daniel Zucker, Cambridge University
01223 737529
Vasily Belokurov, Cambridge University
01223 337515
Wyn Evans, Cambridge University
01223 765847
David Weinberg, Scientific Spokesperson, Sloan Digital Sky Survey
614-292-6543
Gary S. Ruderman, Public Information Officer, Sloan Digital Sky Survey
312-320-4794
May 8, 2006
New Milky Way companions found: SDSS-II first to view two dim dwarf galaxies
The Sloan Digital Sky Survey (SDSS-II) announced today discoveries of
two new faint companion galaxies to the Milky Way.
The first was found in the direction of the constellation Canes Venatici
(the Hunting Dog) by SDSS-II researcher Daniel Zucker at Cambridge
University (UK). His colleague Vasily Belokurov discovered the second in
the constellation Bootes (the Herdsman).
"I was poring over the survey's map of distant stars in the Northern
Galactic sky -- what we call a Field of Streams -- and noticed an
overdensity in Canes Venatici," Zucker explained. "Looking further, it
proved to be a previously unknown dwarf galaxy. Its about 640,000 light
years (200 kiloparsecs) from the Sun. This makes it one of the most
remote of the Milky Way's companion galaxies."
Zucker emailed Belokurov with the news, and, just as discoveries often
build upon one another, Belokurov excitedly emailed back a few hours
later with the discovery of a new, even fainter dwarf galaxy. The new
galaxy in Bootes, which Belokurov called Boo, shows a distorted
structure that suggests it is being disrupted by the Milky Way's
gravitational tides. "Something really bashed Boo about," said Belokurov.
Although the dwarf galaxies are in our own cosmic backyard, they are
hard to discover because they are so dim. In fact, the new galaxy in
Bootes is the faintest galaxy so far discovered, with a total luminosity
of only about 100,000 Suns. But because of its distance (640,000 light
years) it appears almost invisible to most telescopes. The previous
dimness record holder was discovered last year in Ursa Major using
SDSS-II data.
New galactic neighbors are exciting in their own right, but the stakes
in searches for ultra-faint dwarfs are especially high because of a
long-standing conflict between theory and observations. The leading
theory of galaxy formation predicts that hundreds of clumps of "cold
dark matter" should be orbiting the Milky Way, each one massive enough
in principle to host a visible dwarf galaxy. But only about ten dwarf
companions have been found to date.
One possibility is that the galaxies in the smaller dark matter clumps
are too faint to have appeared in previous searches, but might be
detectable in deep surveys like SDSS-II.
"It's like panning for gold. Our view of the sky is enormous, and we're
looking for very small clumps of stars," explained Cambridge University
astronomer Wyn Evans, a member of the SDSS-II research team.
Added collaborator Mark Wilkinson: "Finding and studying these small
galaxies is really important. From their structure and their motions, we
can learn about the properties of dark matter, as well as measure the
mass and the gravity field of the Milky Way".
The new discoveries are part of the SEGUE project (Sloan Extension for
Galactic Understanding and Exploration), one of the three component
surveys of SDSS-II. SEGUE will probe the structure and stellar make-up
of the Milky Way Galaxy in unprecedented detail.
"I'm confident there are more dwarf galaxies out there and SEGUE will
find them, said Heidi Newberg of Rensselaer Polytechnic Institute,
co-chair of SEGUE.
Authors:
* D. B. Zucker, University of Cambridge
* V. Belokurov, Cambridge University
* N. W. Evans, Cambridge University
* M. I. Wilkinson, Cambridge University
* M. J. Irwin, Cambridge University
* S. Hodgkin, Cambridge University
* D. M. Bramich, Cambridge University
* J. M. Irwin, Cambridge University
* G. Gilmore, Cambridge University
* B. Willman, New York University
* S. Vidrih, Cambridge University
* H. J. Newberg, Rensselaer Polytechnic Institute
* R. F. G. Wyse, Johns Hopkins University
* M. Fellhauer, Cambridge University
* P. C. Hewett , Cambridge University
* N. Cole, Rensselaer Polytechnic Institute
* E. F. Bell, Max Planck Institute for Astronomy
* T. C. Beers, Michigan State University
* C. M. Rockosi, University of California, Santa Cruz
* B. Yanny, Fermi National Accelerator Laboratory
* E. K. Grebel, University of Basel
* D. P. Schneider, Pennsylvania State University
* R. Lupton, Princeton University Observatory
* J. C. Barentine, Apache Point Observatory
* H. Brewington, Apache Point Observatory
* J. Brinkmann, Apache Point Observatory
* M. Harvanek, Apache Point Observatory
* S. J.Kleinman, Apache Point Observatory
* J. Krzesinski, Cracow Pedagogical University
* D. Long, Apache Point Observatory
* A. Nitta, Apache Point Observatory
* J. A. Smith, Los Alamos National Laboratory
* S. A. Snedden, Apache Point Observatory
IMAGE CAPTION:
[http://www.sdss.org/news/releases/20060508.companions_enlarge.html]
The figures are created from SDSS-II images. Each star in the
photometric database is assigned a color and plotted as to the star's
brightness. These images are filtered by selecting stars whose colors
and magnitudes are characteristic of the stars in each galaxy.
(Credit: Vasily Belokurov, SDSS-II Collaboration)
Contacts:
Daniel Zucker, Cambridge University
01223 737529
Vasily Belokurov, Cambridge University
01223 337515
Wyn Evans, Cambridge University
01223 765847
David Weinberg, Scientific Spokesperson, Sloan Digital Sky Survey
614-292-6543
Gary S. Ruderman, Public Information Officer, Sloan Digital Sky Survey
312-320-4794
May 8, 2006
New Milky Way companions found: SDSS-II first to view two dim dwarf galaxies
The Sloan Digital Sky Survey (SDSS-II) announced today discoveries of
two new faint companion galaxies to the Milky Way.
The first was found in the direction of the constellation Canes Venatici
(the Hunting Dog) by SDSS-II researcher Daniel Zucker at Cambridge
University (UK). His colleague Vasily Belokurov discovered the second in
the constellation Bootes (the Herdsman).
"I was poring over the survey's map of distant stars in the Northern
Galactic sky -- what we call a Field of Streams -- and noticed an
overdensity in Canes Venatici," Zucker explained. "Looking further, it
proved to be a previously unknown dwarf galaxy. Its about 640,000 light
years (200 kiloparsecs) from the Sun. This makes it one of the most
remote of the Milky Way's companion galaxies."
Zucker emailed Belokurov with the news, and, just as discoveries often
build upon one another, Belokurov excitedly emailed back a few hours
later with the discovery of a new, even fainter dwarf galaxy. The new
galaxy in Bootes, which Belokurov called Boo, shows a distorted
structure that suggests it is being disrupted by the Milky Way's
gravitational tides. "Something really bashed Boo about," said Belokurov.
Although the dwarf galaxies are in our own cosmic backyard, they are
hard to discover because they are so dim. In fact, the new galaxy in
Bootes is the faintest galaxy so far discovered, with a total luminosity
of only about 100,000 Suns. But because of its distance (640,000 light
years) it appears almost invisible to most telescopes. The previous
dimness record holder was discovered last year in Ursa Major using
SDSS-II data.
New galactic neighbors are exciting in their own right, but the stakes
in searches for ultra-faint dwarfs are especially high because of a
long-standing conflict between theory and observations. The leading
theory of galaxy formation predicts that hundreds of clumps of "cold
dark matter" should be orbiting the Milky Way, each one massive enough
in principle to host a visible dwarf galaxy. But only about ten dwarf
companions have been found to date.
One possibility is that the galaxies in the smaller dark matter clumps
are too faint to have appeared in previous searches, but might be
detectable in deep surveys like SDSS-II.
"It's like panning for gold. Our view of the sky is enormous, and we're
looking for very small clumps of stars," explained Cambridge University
astronomer Wyn Evans, a member of the SDSS-II research team.
Added collaborator Mark Wilkinson: "Finding and studying these small
galaxies is really important. From their structure and their motions, we
can learn about the properties of dark matter, as well as measure the
mass and the gravity field of the Milky Way".
The new discoveries are part of the SEGUE project (Sloan Extension for
Galactic Understanding and Exploration), one of the three component
surveys of SDSS-II. SEGUE will probe the structure and stellar make-up
of the Milky Way Galaxy in unprecedented detail.
"I'm confident there are more dwarf galaxies out there and SEGUE will
find them, said Heidi Newberg of Rensselaer Polytechnic Institute,
co-chair of SEGUE.
Authors:
* D. B. Zucker, University of Cambridge
* V. Belokurov, Cambridge University
* N. W. Evans, Cambridge University
* M. I. Wilkinson, Cambridge University
* M. J. Irwin, Cambridge University
* S. Hodgkin, Cambridge University
* D. M. Bramich, Cambridge University
* J. M. Irwin, Cambridge University
* G. Gilmore, Cambridge University
* B. Willman, New York University
* S. Vidrih, Cambridge University
* H. J. Newberg, Rensselaer Polytechnic Institute
* R. F. G. Wyse, Johns Hopkins University
* M. Fellhauer, Cambridge University
* P. C. Hewett , Cambridge University
* N. Cole, Rensselaer Polytechnic Institute
* E. F. Bell, Max Planck Institute for Astronomy
* T. C. Beers, Michigan State University
* C. M. Rockosi, University of California, Santa Cruz
* B. Yanny, Fermi National Accelerator Laboratory
* E. K. Grebel, University of Basel
* D. P. Schneider, Pennsylvania State University
* R. Lupton, Princeton University Observatory
* J. C. Barentine, Apache Point Observatory
* H. Brewington, Apache Point Observatory
* J. Brinkmann, Apache Point Observatory
* M. Harvanek, Apache Point Observatory
* S. J.Kleinman, Apache Point Observatory
* J. Krzesinski, Cracow Pedagogical University
* D. Long, Apache Point Observatory
* A. Nitta, Apache Point Observatory
* J. A. Smith, Los Alamos National Laboratory
* S. A. Snedden, Apache Point Observatory
IMAGE CAPTION:
[http://www.sdss.org/news/releases/20060508.companions_enlarge.html]
The figures are created from SDSS-II images. Each star in the
photometric database is assigned a color and plotted as to the star's
brightness. These images are filtered by selecting stars whose colors
and magnitudes are characteristic of the stars in each galaxy.
(Credit: Vasily Belokurov, SDSS-II Collaboration)