Feeding the Monster: Gas Caught in its Death Spiral
into a Massive Black Hole
An international team of Astronomers
led by Mt. Stromlo Professor Mike Dopita have used the Hubble Space
Telescope to discover how a massive Black Hole in a nearby galaxy
feeds itself.
The Black Hole is located at the
centre of the Giant Elliptical galaxy M87 at the heart of the Virgo
cluster of galaxies. Earlier Hubble Telescope data obtained by
another team member, Professor Holland Ford of Johns Hopkins
University in Baltimore, Maryland, had found a disk of gas rushing
around the Black Hole at a speed of 500 kilometers a second. This
shows that the Black Hole weighs in at nearly 3 billion times the
mass of the sun.
The latest Space Telescope study used
an image 100 times clearer than could be obtained from the earth
together with a spectrum at Ultraviolet wavelengths that cannot
penetrate the earth's atmosphere. Dopita's team have discovered that
the disk is being fed by gas streams that shock against each other
and so trap themselves into a death spiral which leads down into the
Black Hole.
Explained Mark Allen, who is
completing his PhD on Active Galaxies at Mt. Stromlo supervised by
Professor Dopita; "thanks to the modelling code developed by Ralph
Sutherland at the ANU Astrophysical Theory Centre, and by Mike Dopita
at Mt Stromlo, we realised that if we obtained a spectrum covering
both the ultraviolet and optical wavelengths, we could discover if
shocks were important in feeding the monster. With the Space
Telecope, we discovered shocks of 260 kilometers per second, which
serve to squash the gas and to help it to feed down into the Black
Hole".
The gas streams in M87 have come from
millions of dying stars similar to our sun which have lost their
outer layers. Some of this material wanders into the fierce gravity
field of the Black Hole, and is trapped at the rate of nearly ten
solar masses a year. However, a tiny fraction, about 0.2% of the
total, manages to escape in the last minutes before it is dragged
into the Black hole, and is instead squirted out in a jet which is
bright in both the radio and the optical bands. Dr. Geoff Bicknell
(also of Mt Stromlo) in a paper published last year proved that this
jet of gas is flying out at nearly the speed of light and is carrying
prodigious amounts of energy, equivalent to the light of 25 billion
suns.
Mike Dopita points out that such
research is only possible thanks to a Major Grant of the
International Science and Technology Division of the Department of
Industry, Science and Tourism. "Without this grant", he says, "it
would be impossible to sustain Australian leadership of such
international teams, and it would be much harder to win an Australian
share of observation time on the Hubble Space Telescope in the face
of the tremendous world-wide competition."
These results are due to be published
in the Astrophysical Journal in December.
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