http://news.yahoo.com/s/space/hugeholefoundintheuniverse;_ylt=AqYC63AOdBKYvY09.EbqS1Nhr7sF


http://tinyurl.com/28ueyv

The universe has a huge hole in it that dwarfs anything else of its 
kind. The discovery caught astronomers by surprise.

The hole is nearly a billion light-years across. It is not a black 
hole, which is a small sphere of densely packed matter. Rather, this 
one is mostly devoid of stars, gas and other normal matter, and it's 
also strangely empty of the mysterious "dark matter" that permeates 
the cosmos. Other space voids have been found before, but nothing on 
this scale.


Astronomers don't know why the hole is there.


"Not only has no one ever found a void this big, but we never even 
expected to find one this size," said researcher Lawrence Rudnick of 
the University of Minnesota.


Rudnick's colleague Liliya R. Williams also had not anticipated this 
finding.


"What we've found is not normal, based on either observational studies 
or on computer simulations of the large-scale evolution of the 
universe," said Williams, also of the University of Minnesota.


The finding will be detailed in the Astrophysical Journal.


The universe is populated with visible stars, gas and dust, but most 
of the matter in the universe is invisible. Scientists know something 
is there, because they can measure the gravitational effects of the 
so-called dark matter. Voids exist, but they are typically relatively 
small.


The gargantuan hole was found by examining observations made using the 
Very Large Array (VLA) radio telescope, funded by the National Science 
Foundation.


There is a "remarkable drop in the number of galaxies" in a region of 
sky in the constellation Eridanus, Rudnick said.


The region had been previously been dubbed the "WMAP Cold Spot," 
because it stood out in a map of the Cosmic Microwave Background (CMB) 
radiation made by NASA's Wilkinson Microwave Anisotopy Probe (WMAP) 
satellite. The CMB is an imprint of radiation left from the Big Bang, 
the theoretical beginning of the universe.


"Although our surprising results need independent confirmation, the 
slightly colder temperature of the CMB in this region appears to be 
caused by a huge hole devoid of nearly all matter roughly 6 to 10 
billion light-years from Earth," Rudnick said.


Photons of the CMB gain a small amount of energy when they pass 
through normal regions of space with matter, the researchers 
explained. But when the CMB passes through a void, the photons lose 
energy, making the CMB from that part of the sky appear cooler.



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