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Topic Name: Discovery of the largest example of a “small” black hole
Category: STAR (Space, Telecommunications & Radioscience)
Research persons: Charles David Bailyn
Location: Yale University, United States
Details
Discovery of the largest example of a “small” black
hole — one formed from the collapse of a single massive star at the end of
its lifetime — has led scientists to revaluate of how black holes come into
being, according to a report in Nature.
“The theory we operated with for the last decade was that single-star black
holes are formed from the remnants of massive stars — the more massive the
star, the more massive the remnant. But, all of the stellar mass black holes
were expected to be in the range of 10 times the mass of the sun or less, since
only the core regions of the star would collapse,” said Charles Bailyn, the
Thomas E. Donnelley Professor of Astronomy
and Physics at Yale, and a member of the research team.
The research team, who identified the black hole with 15.65 times the mass of
the sun, took advantage of “nature”
to make an unusually precise measurement and required the surprised astronomers
to reevaluate a long-standing theory.
Since black holes can't be seen — because they trap all matter and light
that enters them — they are detected by the gravitational effects they have on
nearby stars or other matter that is near them. This team made their
calculations by measuring the motion of a star as it orbited abound the black
hole, known as M33 X-7. The black hole completes one orbit every 3.45 days
around its massive companion star.
“In this particular case, an eclipse in the system provided the exact
orientation and gave mass information far more accurate than any previous
reports,” said Bailyn. “Researchers rarely have such accurate points of
reference.”
While some other papers have cited “small” black holes with masses of 12
to 14 times that of the sun, Bailyn said, “Those data had large margins of
error that could still fit within the theory. Finding a black hole with such
unusual characteristic points out that our understanding of the evolution of
massive stars and the formation of black holes must be incomplete.”
This black hole is also the most distant stellar black hole ever observed and
is located outside our galaxy
— in a dwarf galaxy, Messier 33, that orbits Andromeda. Bailyn noted that,
“Finding black holes in different and distant locations gives us many more
objects to study and opens up the opportunity to find extreme examples that test
theoretical limits.”
Lead author on the study is Jerome A. Orosz, associate professor in the
Department of Astronomy at San Diego State University, and former graduate
student who studied with Charles Bailyn at Yale. Other authors are Jeffrey
McClintock, Ramesh Narayan, Joel Hartman, Jiefeng Liu, Lucas Macri, Wolfgang
Pietsch, Ronald Remillard, Avi Shporer and Tseve Mazeh.
Scientists combined data from three observatories to make their discovery
—NASA’s Chandra X-ray Observatory in orbit around the Earth, the Gemini
North 8-meter telescope on the island of Hawai’i, and the 2.1-meter and WIYN
3.5-meter telescopes at Kitt Peak National Observatory near Tucson were combined
to make the discovery. Support for the study came from the National
Science Foundation.
About Researcher:
Charles David Bailyn
Thomas E. Donnelley Professor of Astronomy and Physics
Department of Astronomy
Yale University
PO Box 208101, New Haven, CT 06520-8101
(203) 432 3022; bailyn@astro.yale.edu
FAX: (203) 432 5048
FEDEX: Dept. of Astronomy, 270 Gibbs Lab, 260 Whitney Ave., New Haven CT 06511
Office: 270 J. W.
Gibbs Lab
Teaching
Research
My research focusses on observations of stellar mass black
holes and related topics. I serve as the Principal Scientist of the SMARTS
consortium, and President of the Board of WIYN
Inc.
For more information on black holes, see Charles Bailyn’s “Black Hole
Toolbox”: http://cmi2.yale.edu/bh and
the Chandra Observatory press release: http://chandra.harvard.edu/press/07_releases/press_101707.html
.
For graphics and images, including an optical image of the galaxy M33 from
Kitt Peak, see: http://chandra.harvard.edu/photo/2007/m33x7/more.html
 
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