 |
|
Galaxies are born inside dark matter clumps, Cornell study of Spitzer Space Telescope data shows
April 20, 2006Try mixing caramel into vanilla ice cream - you will always end up with globs and swirls of caramel. Scientists are finding that galaxies may distribute themselves in similar ways throughout the universe and in places where there is lots of so-called dark matter.
"Our findings suggest that unseen dark matter - which emits no light but has mass - has had a major effect on the formation and evolution of galaxies, and that bright active galaxies are only born within dark matter clumps of a certain size in the young universe," said Cornell University research associate Duncan Farrah, the lead author of a paper on spatial clustering that appeared in the April 10 issue of Astrophysical Journal Letters.
To investigate the spatial distribution of galaxies, Farrah used data that recently became available from the Spitzer Wide-area InfraRed Extragalactic (SWIRE) survey, one of the largest such surveys performed by the Spitzer Space Telescope, which was launched in 2003.
A galaxy is typically made up of hundreds of billions of stars grouped tightly together. But galaxies themselves often group together into what astronomers call "large-scale structures." And, just as galaxies themselves can take on such shapes as ellipticals and spirals, so, too, can the large-scale structures, ranging from galaxy clusters to long filaments of galaxies to large, empty voids.
"You might think that galaxies are just distributed randomly across the sky, like throwing a handful of sand onto the floor," said Farrar. "But the problem is they are not, and this has been a great puzzle."
Farrah is interested in how large-scale structures form. To measure the amount of clustering in the early universe, he looked at light that had traveled for several billion years from extremely distant galaxies. From this he was able to calculate the amount of bunching in candidate galaxy clusters in the early universe.
"We wanted to find the beacons of the first stages of the formation of a galaxy cluster because, at that time, the clusters themselves had not formed yet," said Farrah.
In particular, he was interested in objects that emit strongly in the infrared and are surrounded by dense gas and dust. These objects, known as ultraluminous infrared galaxies (ULIRGs), were thought to be precursors of galaxy clusters. Farrah confirmed this by showing that ULIRGs do, indeed, tend to cluster in their early phases. The ability to pinpoint the locations of nascent galaxy clusters will enable researchers to investigate early cluster formations and when they occurred.
Farrah's finding that distant ULIRGs are linked with large clumps of dark matter was surprising for another reason. As its name suggests, dark matter doesn't emit light so no conventional telescope can see it. However, because dark matter has mass, its existence can be inferred by the way stars are drawn to regions where this mysterious mass is concentrated.
Unexpectedly, Farrah found that ULIRGs at different points in the history of the universe coincide with clumps of dark matter haloes of very similar masses. This observation suggests that a minimum amount of dark matter is necessary for galaxies to form and to coalesce into clusters. Farrah believes his study also provides valuable insights into understanding how dark matter helped mold the evolution of the universe.
Carol Lonsdale of NASA's Jet Propulsion Laboratory, which manages the Spitzer Space Telescope, is the principal investigator for the SWIRE project.
Cornell University
A galaxy is typically made up of hundreds of billions of stars grouped tightly together. But galaxies themselves often group together into what astronomers call "large-scale structures." And, just as galaxies themselves can take on such shapes as ellipticals and spirals, so, too, can the large-scale structures, ranging from galaxy clusters to long filaments of galaxies to large, empty voids.
"You might think that galaxies are just distributed randomly across the sky, like throwing a handful of sand onto the floor," said Farrar. "But the problem is they are not, and this has been a great puzzle."
Farrah is interested in how large-scale structures form. To measure the amount of clustering in the early universe, he looked at light that had traveled for several billion years from extremely distant galaxies. From this he was able to calculate the amount of bunching in candidate galaxy clusters in the early universe.
"We wanted to find the beacons of the first stages of the formation of a galaxy cluster because, at that time, the clusters themselves had not formed yet," said Farrah.
In particular, he was interested in objects that emit strongly in the infrared and are surrounded by dense gas and dust. These objects, known as ultraluminous infrared galaxies (ULIRGs), were thought to be precursors of galaxy clusters. Farrah confirmed this by showing that ULIRGs do, indeed, tend to cluster in their early phases. The ability to pinpoint the locations of nascent galaxy clusters will enable researchers to investigate early cluster formations and when they occurred.
Farrah's finding that distant ULIRGs are linked with large clumps of dark matter was surprising for another reason. As its name suggests, dark matter doesn't emit light so no conventional telescope can see it. However, because dark matter has mass, its existence can be inferred by the way stars are drawn to regions where this mysterious mass is concentrated.
Unexpectedly, Farrah found that ULIRGs at different points in the history of the universe coincide with clumps of dark matter haloes of very similar masses. This observation suggests that a minimum amount of dark matter is necessary for galaxies to form and to coalesce into clusters. Farrah believes his study also provides valuable insights into understanding how dark matter helped mold the evolution of the universe.
Carol Lonsdale of NASA's Jet Propulsion Laboratory, which manages the Spitzer Space Telescope, is the principal investigator for the SWIRE project.
Cornell University
Dark Matter Current Events and Dark Matter News RSSSpallation Neutron Source sends first neutrons to 'Big Bang' beam line
New analytical tools coming on line at the Spallation Neutron Source, the Department of Energy's state-of-the-art neutron science facility at Oak Ridge National Laboratory, include a beam line dedicated to nuclear physics studies.
Scientists Detect Cosmic 'Dark Flow' Across Billions of Light Years
Using data from NASA's Wilkinson Microwave Anisotropy Probe (WMAP), scientists have identified an unexpected motion in distant galaxy clusters. The cause, they suggest, is the gravitational attraction of matter that lies beyond the observable universe.
First beam for Large Hadron Collider
An international collaboration of scientists today sent the first beam of protons zooming at nearly the speed of light around the world's most powerful particle accelerator-the Large Hadron Collider (LHC)-located at the CERN laboratory near Geneva, Switzerland.
First beam for Large Hadron Collider, world's mightiest particle accelerator
An international collaboration of scientists today sent the first beam of protons zooming at nearly the speed of light around the 17-mile-long underground circular path of the Large Hadron Collider (LHC), the world's most powerful particle accelerator, located at the CERN laboratory near Geneva, Switzerland.
UC Santa Barbara has key role in Large Hadron Collider project
Earlier today, some 300 feet below the Earth's surface, in a circular tunnel so extensive that it travels from Switzerland into France and back again, scientists at the Large Hadron Collider (LHC) at the European Organization for Nuclear Research (CERN) in Geneva fired the first beams of protons that they hope will eventually produce history-making science.
Boston physicists celebrate first beam for Large Hadron Collider
Scientists today sent the first beam of protons zooming at nearly the speed of light around the 17-mile Large Hadron Collider. The LHC, located at the CERN laboratory near Geneva, Switzerland, is the world's most powerful particle accelerator.
University of Chicago scientists await start-up of Large Hadron Collider
The moment that James Pilcher has been waiting for since 1994 will arrive at 1:30 a.m. CDT on Wednesday, Sept. 10, when the world's largest scientific instrument is scheduled to begin operation.
Iowa State scientists, students contribute to world's biggest science experiment
The first beam of protons will begin racing around the world's biggest science experiment on Wednesday, Sept. 10, and Iowa State University physicists will be part of the research team taking notes.
Michigan integral to world's largest physics experiment
After 20 years of construction, a machine that could either verify or nullify the prevailing theory of particle physics is about to begin its mission.
UCI scientists discover minimum mass for galaxies
By analyzing light from small, faint galaxies that orbit the Milky Way, UC Irvine scientists believe they have discovered the minimum mass for galaxies in the universe - 10 million times the mass of the sun.
More Dark Matter Current Events and Dark Matter News Articles
 | Dark Side of the Universe: Dark Matter, Dark Energy, and the Fate of the Cosmos by Iain Nicolson Once we thought the universe was filled with shining stars, dust, planets, and galaxies. We now know that more than 98 percent of all matter in the universe is dark. It emits absolutely nothing yet bends space and time; keeps stars speeding around galaxies; and determines the fate of the universe. But dark matter is only part of the story. Scientists have recently discovered that the expansion of... |
 | Dark Matter: A Century of Speculative Fiction from the African Diaspora Like The Norton Anthology of Black Literature, this title introduces black SF, fantasy, and speculative fiction writers to the generations of readers who have not had the opportunity to explore the extraordinary scope and diversity among African-American writers in one volume. With approximately 40 short stories by Steven Barnes, Octavia E. Butler, Samuel R. Delany, Tananarive Due, and many more,... |
 | In Search of Dark Matter (Springer Praxis Books / Space Exploration) by Ken Freeman, Geoff McNamara The dark matter problem is one of the most fundamental and profoundly difficult problems in the history of science. Not knowing what makes up most of the mass in the Universe goes to the heart of our understanding of the Universe and our place in it. In Search of Dark Matter is the story of the emergence of the dark matter problem, from the initial 'discovery' of dark matter by Jan Oort to... |
 | D20 Dark Matter (d20 Modern Supplement) by Wolfgang Baur, Monte Cook Fresh update to a favorite campaign setting. d20 Dark•Matter is a 160-page d20 Modern® supplement that updates the original Dark•Matter Campaign Setting (created for the Alternity® Science Fiction Roleplaying Game), making it fully compatible with the d20 Modern rules. It also includes some new content.d20 Dark•Matter presents a world where devious organizations scheme for world... |
 | Dark Matters: Unifying Matter, Dark Matter, Dark Energy, and the Universal Grid by Dr. Percy Seymour One of the most important unsolved problems of current physics, astronomy, and cosmology is the nature of dark matter and dark energy. These two invisible components of the universe seem to control the behavior of galaxies, clusters of galaxies, and the accelerating expansion of the universe, but we do not know what they are. Dark Matters offers a unified explanation for dark matter and dark... |
 | Arms & Equipment Guide (Alternity Sci-Fi Roleplaying, Dark Matter Setting) by Harold Johnson |
 | Cloak and Dagger (Star Trek Voyager, No 19, Dark Matters Book One of Three) by Christie Golden It is a scientific truth that the structure of the universe depends on the amount of "dark matter" contained in the cosmos. When sinister forces threaten to tamper with the very nature of reality, Captain Janeway and the crew of the U.S.S. Voyager™ must risk everything to restore the universal balance.... CLOAK AND DAGGER Years ago, near the beginning of its long journey, Voyager made... |
| The Dark Matter: Contemporary Science's Quest for the Mass Hidden in Our Universe by Wallace Tucker, Karen Tucker | |
 | Dark Matter (Alternity Sci-Fi Roleplaying, Dark Matter Setting, Modern) by Wolfgang Baur In the modern day, not everything is as it appears. Paranormal occurrences and occult activities are becoming everyday happenings. These events are quickly hidden from public view by various world governments and other organizations who have neither the knowledge nor understanding of their significance. Doorways to other worlds are opening, and it's up to the heroes of the Hoffmann Institute to... |
 | X Files YA #10 Dark Matter (X Files YA) by Easton Royce A man disappears from a locked hotel room, and the only clue left behind is a strange black impression scorched onto the floor. When two other victims meet the same fate, FBI Agent Fox Mulder believes the deaths may be due to spontaneous human combustion. Until Mulder and his partner Agent Dana Scully trace the deaths to a company called Polarity Magnetics, where scientists are working on the... |
| © 2008 BrightSurf.com |