Galaxy clusters may offer critical clues to dark energy

Nov 20, 2012
In this image, taken at the Blanco telescope, the boundary of the cluster of galaxies is marked with a dashed line. The brightest galaxy in the cluster galaxy (BCG) is circled.

(Phys.org)—One of the major puzzles in astronomy today is the nature of the mysterious force that astronomers have dubbed Dark Energy. And one tool in understanding this force is encoded in the distribution of clusters of galaxies in the Universe. Thus, new work by a team of astronomers that has yielded exquisitely precise distances of a large sample of clusters may lead to breakthroughs in understanding the expansion history of our Universe.

Astronomers have known for over 80 years that our Universe is expanding from an event called the Big Bang. In 2011, the was awarded for the even more exciting discovery that the rate of expansion is increasing, rather than slowing down as might be expected. The cause of this acceleration, referred to as , is not understood.

As Dr. Jeeseon Song, lead author of the study, remarked: "By looking at at different epochs in , astronomers can explore whether Dark Energy has acted differently at different times in the history of the Universe. Galaxies, including our own , are vast assemblages of stars and gas. Clusters of galaxies, conglomerates of tens to hundreds of galaxies, are the largest structures in the Universe. They are dynamically changing and aging over time. And that is very crucial in cosmological studies, because that's where we can see how Dark Energy is acting on the Universe, pulling the clusters apart." By studying the distribution of clusters at different times in the past, astronomers detect what the Dark Energy does to the Universe, allowing them to figure out what the Dark Energy itself is.

n this long exposure, the stars circle the South Pole, just above the Blanco 4-meter telescope. The galaxy clusters are just setting in the west, behind the dome of the 60 inch. Credit: T. Abbott & CTIO/NOAO/AURA/NSF

The team has identified an important sample of galaxy clusters whose distances have been determined accurately enough to study how the density of galaxy clusters varies with the . To do this, they began with observations from the , a millimeter-wavelength survey telescope. Crucial follow-up work at the Blanco 4-meter telescope at Cerro Tololo Inter-American Observatory enabled them to refine cluster distances to within a few percent. The Blanco telescope, located in northern Chile, celebrates its 50th anniversary this year, but with modern instrumentation such as the Mosaic camera used in this study, it still plays a vital role in cutting edge research.

It has been known for decades that in the expanding universe the farther away an object is, the faster it is receding from us. Measuring velocity is based on an effect seen in everyday life: as an object moves further away, its light shifts to longer, or red, wavelengths (called redshift). As an object moves closer, the light wavelengths shorten, shifting to blue. This Doppler shift of light waves is used by highway patrols to measure the velocity of cars on the highway.

Because of the expansion of the Universe, objects with large redshifts are not only far away, they are also observed as they were a long time in the past. When measuring distant objects in the Universe, astronomers refer to the redshift using the letter z. The galaxy clusters in this study have an average redshift, z, of about 0.6. At this redshift the Universe was only about half of its present age of 13.7 billion years. But the clusters span a range in distance from those close enough to be seen almost as they are in the present universe, to some with z as large as 1.4, which means we see them as they appeared when the was less than a third of its present age.

A related discovery from this work concerns what are called Brightest Cluster Galaxies, or BCGs – the biggest and brightest galaxy in each cluster. As Alfredo Zenteno, the second author of this paper, said: "The position of a BCG within a cluster indicates if the cluster is undergoing some violent internal motion – perhaps because it has suffered a smashup with another cluster. By studying the frequency of such collisions, we learn if these clusters are unique or not. This is crucial to understanding Dark Energy in clusters."

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Negi Magi
1 / 5 (1) Nov 26, 2012
Very nice

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