Astronomers use dark matter to measure age of UniverseMarch 2nd, 2010 - 1:41 pm ICT by ANI
Washington, March 2 (ANI): Reports indicate that astronomers from the US and Europe have used a gravitational lens - a distant, light-bending clump of dark matter - to make a new estimate of the Hubble constant, which determines the size and age of the universe.
“The Hubble constant has previously been calculated by using NASA’s Hubble Space Telescope to look at distant supernovae, and by measurements of the cosmic microwave background - radiation leftover from the Big Bang,” said Chris Fassnacht, associate professor of physics at UC Davis.
“The new method provides an independent check on the other two,” he said.
A gravitational lens is a distant object, such as a galaxy surrounded by dark matter, that exerts a gravitational pull on light passing through it.
Other galaxies behind the lens, from our point of view, appear distorted.
In the case of the object B1608+656, astronomers on Earth see four distorted images of the same background object.
Fassnacht began studying B1608+656 as a graduate student a decade ago.
“Because the mass distribution of the lens is now well understood as a result of recent Hubble Space Telescope observations, it is possible to use it to calculate the Hubble constant,” he said.
Two photons of light leave the background galaxy at the same time and travel around the lens, their paths distorted in different ways by the gravitational field so that they arrive on Earth at slightly different times.
Based on that time delay, it is possible to calculate the distance of the entire route, and then infer the Hubble constant.
The timing is set by waiting for a change in the background object — for example, for it to become more luminous.
If the travel times are slightly different, the different images of the background object will seem to brighten at slightly different times. (ANI)
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Tags: age of the universe, background galaxy, background object, cosmic microwave background, dark matter, distant light, distant object, distant supernovae, fassnacht, gravitational field, gravitational lens, gravitational pull, hubble constant, hubble space telescope, independent check, mass distribution, microwave background radiation, telescope observations, travel times, uc davis