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A giant black hole has been jerked around twice, causing its spin axis to point in a different direction from before.

If confirmed, this discovery might explain several mysterious-looking objects found throughout the Universe.

A new deep observation with Chandra of 4C +00.58 was key in making this finding.

When combined with radio observations, the X-rays suggest collisions with other galaxies may be responsible for the changes in the black hole's spin.

This image shows the effects of a giant black hole that has been flipped around twice, causing its spin axis to point in a different direction from before. The large optical image, from the Sloan Digital Sky Survey, is centered on a radio galaxy named 4C +00.58. The smaller image to the right shows a close-up view of this galaxy in X-rays (in gold) from the Chandra X-ray Observatory, and radio waves (in blue) from the Very Large Array.

At the center of 4C +00.58 is a supermassive black hole that is actively pulling in large quantities of gas. Gas swirling toward the black hole forms a disk around the black hole, generating strong electromagnetic forces that propel some of the gas away from the disk at high speed, producing radio jets. A radio image of this galaxy shows a bright pair of jets pointing from left to right and a fainter, more distant line of radio emission running approximately from the top to the bottom of the image. A labeled image shows these two sets of radio emission. This galaxy belongs to a class of "X-shaped" galaxies because of the outline of the radio emission.

Labeled X-ray & Radio Image

The X-ray image of hot gas in and around 4C +00.58 reveals four different cavities -- regions of lower than average X-ray emission -- around the black hole. These cavities come in pairs: one in the top-right and bottom-left (labeled cavities #1 and #2 respectively), and another in the top-left and bottom-right (labeled cavities #3 and #4 respectively). Special processing was applied to this image to make the cavities more obvious.

According to the scenario presented by a new study, the spin axis of the black hole ran along a diagonal line from top-right to bottom-left. The galaxy then collided with a smaller galaxy. Possible evidence for this collision is seen in the optical image, in the form of a stellar shell. After this collision, a jet powered by the black hole ignited, blowing away gas to form cavities #1 and #2 in the hot gas. Since the gas falling onto the black hole was not aligned with the spin of the black hole, the spin axis of the black hole rapidly changed direction, and the jets then pointed in a roughly top-left to bottom-right direction, creating cavities #3 and #4 and radio emission in this direction.

Then, either a merging of the two central black holes from the colliding galaxies, or more gas falling onto the black hole caused the spin axis to jerk around to its present direction in roughly a left to right direction.

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Fast Facts for :
Credit
Release Date	,
Scale	Wide field image is 15 arcmin across (3.4 million light years), inset image is 1.6 arcmin across (363,000 light years)
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Coordinates (J2000)	RA \| Dec	RA \| Dec
Constellation	"; } echo $constellation['constellationName']; if (!empty($constellation['constellationLink'])) { echo ""; } ?>
Observation Date	Dec 22, 2007 & Apr 29, 2009
Observation Time	hours
Obs. ID	9274, 10304
Instrument
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References	".$imageReleaseInfo['imageReference']."
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Distance Estimate

A galaxy harboring a giant black hole.

About 780 million light years from Earth.

X-rays from Chandra were overlaid on radio data from the Very Large Array.

The X-ray/radio pull out is 363,000 light years across.

X-rays are gold and radio is in blue.

In the constellation Serpens visible between latitudes 80 and -80 degrees.

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