Wednesday, August 15, 2012

NASA Chandra - The Remarkable Phoenix Cluster

The Phoenix Cluster, as seen in x-ray, optical, ultraviolet wavelengths and X-Ray. 

Image courtesy M. McDonald, CXC/Caltech/NOAO/AURA/MIT/NASA.

The image on the left shows the newly discovered Phoenix Cluster, located about 5.7 billion light years from Earth.

This composite includes an X-ray image from NASA's Chandra X-ray Observatory in purple, an optical image from the 4m Blanco telescope in red, green and blue, and an ultraviolet (UV) image from NASA's Galaxy Evolution Explorer (GALEX) in blue.

The Chandra data reveal hot gas in the cluster and the optical and UV images show galaxies in the cluster and in nearby parts of the sky.

This galaxy cluster has been dubbed the "Phoenix Cluster" because it is located in the constellation of the Phoenix, and because of its remarkable properties.

The Phoenix Cluster
Stars are forming in the Phoenix Cluster at the highest rate ever observed for the middle of a galaxy cluster.

The object is also the most powerful producer of X-rays of any known cluster, and among the most massive of clusters.

The data also suggest that the rate of hot gas cooling in the central regions of the cluster is the largest ever observed.

Like other galaxy clusters, Phoenix contains a vast reservoir of hot gas -- containing more normal matter than all of the galaxies in the cluster combined -- that can only be detected with X-ray telescopes like Chandra.

This hot gas is giving off copious amounts of X-rays and cooling quickly over time, especially near the center of the cluster, causing gas to flow inwards and form huge numbers of stars.

These features of the central galaxy are shown in the artist's illustration, with hot gas in red, cooler gas as blue, the gas flows shown by the ribbon-like features and the newly formed stars in blue.


These results are striking because most galaxy clusters have formed very few stars over the last few billion years.

Astronomers think that the supermassive black hole in the central galaxy of clusters pumps energy into the system.

The Perseus Cluster
The famous Perseus Cluster is an example of a black hole bellowing out energy and preventing the gas from cooling to form stars at a high rate.

Repeated outbursts from the black hole in the center of Perseus, in the form of powerful jets, created giant cavities and produced sound waves with an incredibly deep B-flat note 57 octaves below middle C.

Shock waves, akin to sonic booms in Earth's atmosphere, and the very deep sound waves release energy into the gas in Perseus, preventing most of it from cooling.

In the case of Phoenix, jets from the giant black hole in its central galaxy are not powerful enough to prevent the cluster gas from cooling.

Correspondingly, any deep notes produced by the jets must be much weaker than needed to prevent cooling and star formation.

Supermassive Black Hole
Based on the Chandra data and also observations at other wavelengths, the supermassive black hole in the central galaxy of Phoenix is growing very quickly, at a rate of about 60 times the mass of the Sun every year.

This rate is unsustainable, because the black hole is already very massive, with a mass of about 20 billion times the mass of the Sun.

Therefore, its growth spurt cannot last much longer than about a hundred million years or it would become much bigger than its counterparts in the nearby Universe.

A similar argument applies to the growth of the central galaxy. Eventually powerful jets should be produced by the black hole in repeated outbursts, forming the deep notes seen in objects like Perseus and stopping the starburst.

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