A&A press release: Proto supermassive binary black hole detected in X-rays (6 April 2006)
- Published on 05 April 2006
A&A press release
Released on April 6th, 2006
Proto supermassive binary black hole detected in X-rays
Based on the article “X-ray detection of the proto supermassive binary black hole at the centre of Abell 400”, by Hudson et al.
(To be published in Astronomy & Astrophysics. )
The two black holes are located in the nearby galaxy cluster Abell 400. With high-resolution Chandra data, the team was able to spatially resolve the two supermassive black holes (separated by 15") at the centre of the cluster. Each black hole is located at the centre of its respective host galaxy and the host galaxies appear to be merging. It is not, however, just the two host galaxies that are colliding - the whole cluster in which they live is merging into another neighbouring galaxy cluster.
Using these new data, the team show that the two black holes are moving through the intracluster medium at the supersonic speed of about 1200 km/s. The wind from such a motion would cause the radio plasma emitted from these two black holes to bend backwards. Although this bending had been observed previously, the cause of it was still being debated. Since the bending of the jets due to this motion is in the same direction, it suggests that the two black holes are travelling along the same path within the cluster and are therefore gravitationally bound.
These two black holes became gravitationally bound when their host galaxies collided. In several million years, the two black holes will probably coalesce causing a burst of gravitational waves, as predicted by Einstein's theory of relativity. This event will produce one of the brightest sources of gravitational radiation in the Universe. Although we will not be around to see this particular one, the observations provide additional evidence that such bound systems exist and are currently merging. The gravitational waves produced by these mergers are believed to be the biggest source of gravitational waves to be detected by the future Laser Interferometer Space Antenna (LISA).
Fig. 1 - This image shows the central region of the galaxy cluster Abell 400. The colour coding gives the temperature of the X-ray emitting gas trapped in the cluster: black-cold (18 million degrees Celsius) to white-hot (38 million degrees Celsius). The contours show the radio emission from the jets of plasma being expelled by the black holes. As the two black holes stream through the gas at supersonic velocities, the jets are bent toward the top of the image. The gas in front of the black holes is compressed and heated, as seen by the hotspot below them. The inset shows a blow up of the central regions. Each dot represents a position where an X-ray photon has struck Chandra's X-ray camera. The two black holes are seen as bright regions where as many as 250 X-ray photons struck the camera. The contours again show the radio emission from the black holes and the jets of plasma being ejected from them.
X-ray detection of the proto supermassive binary black hole at the centre of Abell 400
by D.S Hudson, T.H. Reiprich, T.E. Clarke, and C.L. Sarazin.
To be published in Astronomy & Astrophysics (DOI number: 10.1051/0004-6361:20064955)
Dr. Daniel Hudson
Email: dhudson (at) astro.uni-bonn.de
Phone: +49 228 73 6788
Dr. Thomas Reiprich
Email: reiprich (at) astro.uni-bonn.de
Phone: +49 228 73 3642
Dr. Craig L. Sarazin
Email: sarazin (at) virginia.edu
Phone: +1 434 924 4903
Dr. Tracy E. Clarke
Email: tracy.clarke (at) nrl.navy.mil
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