Mysterious cosmic ‘dark flow’ tracked deeper into universe
March 11th, 2010 - 5:59 pm ICT by ANIWashington, March 11(ANI): A new study has tracked the mysterious cosmic ‘dark flow’ to twice the distance originally reported in the Universe.
The study was led by Alexander Kashlinsky at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
“This is not something we set out to find, but we cannot make it go away,” Kashlinsky said.
“Now we see that it persists to much greater distances - as far as 2.5 billion light-years away,” he added.
The clusters appear to be moving along a line extending from our solar system toward Centaurus/Hydra, but the direction of this motion is less certain.
Evidence indicates that the clusters are headed outward along this path, away from Earth, but the team cannot yet rule out the opposite flow.
“We detect motion along this axis, but right now our data cannot state as strongly as we’d like whether the clusters are coming or going,” Kashlinsky said.
The new study builds on a previous one by using the five-year results from WMAP and by doubling the number of galaxy clusters.
“It takes, on average, about an hour of telescope time to measure the distance to each cluster we work with, not to mention the years required to find these systems in the first place,” said Harald Ebeling at the University of Hawaii. “This is a project requiring considerable followthrough,” he added.
According to Fernando Atrio-Barandela at the University of Salamanca, Spain, who has focused on understanding the possible errors in the team’s analysis, the new study provides much stronger evidence that the dark flow is real.
For example, the brightest clusters at X-ray wavelengths hold the greatest amount of hot gas to distort CMB photons.
“When processed, these same clusters also display the strongest KSZ signature - unlikely if the dark flow were merely a statistical fluke,” he said.
In addition, the team, which now also includes Alastair Edge at the University of Durham, England, sorted the cluster catalog into four “slices” representing different distance ranges.
They then examined the preferred flow direction for the clusters within each slice.
While the size and exact position of this direction display some variation, the overall trends among the slices exhibit remarkable agreement.
The researchers are currently working to expand their cluster catalog in order to track the dark flow to about twice the current distance. Improved modeling of hot gas within the galaxy clusters will help refine the speed, axis, and direction of motion. (ANI)
- Scientists detect cosmic "dark flow" across billions of light years - Sep 24, 2008
- Mysterious 'dark flow' may be sign of neighboring universe - Nov 17, 2009
- Unknown structures tugging at Universe like cosmic magnets - Nov 07, 2008
- Massive galaxy cluster weighs as much as 800 trillion Suns - Oct 14, 2010
- Scientists find galaxy cluster aged 3bn yrs, but still very young - Mar 10, 2011
- Study finds 'no link between dark matter, black holes' - Jan 21, 2011
- When mammoth galaxy clusters collide in a 'cosmic free-for-all' - Apr 17, 2009
- Detailed maps of dark matter offer clues to galaxy cluster growth - Nov 12, 2010
- In a galaxy far away, Indian-origin scientist finds her calling - Feb 14, 2011
- Researcher computes universe's expansion speed - Jul 28, 2011
- Study predicts occurrence of neutron star collision in local galaxies - Dec 03, 2010
- Scientists discover ancient galaxies that are still forming stars - Aug 19, 2010
- Now, measure universe 3 times farther using super-sharp radio 'eye' - Feb 21, 2011
- Indian-origin scientist says universe will continue to expand forever - Aug 20, 2010
- Galaxies can also be awake or asleep - Jun 22, 2011
Tags: alexander kashlinsky, atrio, durham england, ebeling, galaxy clusters, goddard space flight, goddard space flight center, greenbelt maryland, light years, photons, space flight center, statistical fluke, telescope time, university of durham, university of hawaii, university of salamanca, university of salamanca spain, wavelengths, wmap, x ray