This composite image shows SDSSJ1226-0006, a new gravitationally lensed quasar discovered in a Japanese survey announced on April 11, 2012. The quasar image in the original image of the Sloan Digital Sky Survey, which was used to search for survey gravitational lensing, looks only slightly extended, but the Hubble Telescope view clearly shows two distinct quasar images (white) as well as a massive galaxy in between the quasar images (orange) that produces gravitational lensing.
Credit: Masamune Oguri, Naohisa Inada et al.
The pesky reality that the universe's expansion is accelerating — an observation that prompted astronomers to invoke an unknown entity called dark energy to explain it — has been further confirmed by new measurements.
Scientists have used cosmic magnifying glasses called gravitational lenses to observe super-bright distant galaxies, giving a measure of how quickly the universe is blowing up like a giant balloon. They found, in agreement with previous measurements, that the universe's expansion is indeed speeding up over time.
The first measurement of this phenomenon, based on exploding stars called supernovae, was made in the 1990s.
"The accelerated cosmic expansion is one of the central problems in modern cosmology," Masamune Oguri, of the University of Tokyo's Kavli Institute for the Physics and Mathematics of the Universe, said in a statement. "In 2011 the Nobel Prize in Physics was awarded to the discovery of the accelerated expansion of the universe using observations of distant supernovae. A caution is that this method using supernovae is built on several assumptions, and therefore independent checks of the result are important in order to draw any robust conclusion."
Scientists still don't have much of an idea why the universe is not only expanding doing so ever-faster. The gravity of all the mass in the universe would be expected to pull everything back inward, so scientists call whatever force is counteracting gravity "dark energy."
"Our new result using gravitational lensing not only provides additional strong evidence for the accelerated cosmic expansion, but also is useful for accurate measurements of the expansion speed, which is essential for investigating the nature of dark energy," Oguri said.
Ogiri led the new study of quasars with Naohisa Inada at Japan's Nara National College of Technology.
Quasars are objects bright enough to be spotted halfway across the universe. They are thought to be powered by hungry black holes that gobble up copious amounts of matter in the centers of galaxies, releasing radiant jets of light that shoot out into space.
The light from quasars sometimes passes by massive objects on its way to telescopes on Earth, and the gravity from these objects bends space-time, causing the light to travel along a curved path. This can produce warped and distorted double images of a single distant quasar. [Video: Quasar Details Seen With Gravitational Lenses]
As the universe expands, the distance to quasars increases, and so do the chances that a quasar's light will pass by a massive object and be gravitationally lensed.
Thus the frequency of gravitationally lensed quasars can indicate the expansion speed of the universe.
Ogiri, Inada and their colleagues searched for such quasars in the catalog of the Sloan Digital Sky Survey (SDSS), which took detailed observations of giant swaths of the night sky. In a collection of about 100,000 quasars, the researchers identified 50 that were being gravitationally lensed, significantly increasing the known total sample of these objects.
The researchers used their calculation of the frequency of gravitationally lensed quasars to deduce that the universe's expansion is indeed accelerating.
The new results will be reported in an upcoming paper published in the Astronomical Journal.
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