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July 13, 2005

Three Satellites Needed to Discover One Shy Star

UMBC Astrophysicist Leads International Team of Scientists, Satellites

Contact: Chip Rose
UMBC News
410-455-5793
crose@umbc.edu
View/download High Resolution Images & Animation Online

An international team of scientists led by a UMBC astrophysicist has uncovered a rare type of neutron star so elusive that it took three satellites to identify it. The discovery highlights the complementary nature of European and U.S. satellites to reveal new insights about star birth and death in our galaxy.

The neutron star, an ultradense ember of an exploded star, was first seen by the European Space Agency's INTEGRAL satellite. The neutron star is in a "double hiding place," the scientists said: deep in a spiral arm of our Milky Way galaxy, obscured by dust; and buried in a two-star system enshrouded by dense gas.

The scientists couldn't immediately decipher the nature of the object, so they enlisted NASA's Rossi X-ray Timing Explorer and the newly launched Swift satellite to observe it in different wavelengths.

"Our Galaxy's spiral arms are loaded with neutron stars, black holes and other exotic objects," said Volker Beckmann of NASA and the University of Maryland, Baltimore County’s Joint Center for Astrophysics, lead author on a paper appearing in the Astrophysical Journal. "The problem is, the spiral arms are too dusty to see through. The right combination of X-ray and gamma-ray telescopes can reveal what's hiding there. And this provides new clues about the true star formation rate in our Galaxy."

Neutron stars are the core remains of supernovas, exploded stars once about ten times as massive as the Sun. Neutron stars contain about a sun's worth of mass compacted into a sphere about 15 miles across. The subject of today's announcement is a neutron star called IGR J16283-4838 in the direction of the spiral arm Norma, about 20,000 light years away.

IGR J16283-4838 is the seventh so-called "highly absorbed," or hidden, neutron star identified. Neutron stars, born of fast-burning massive stars, are intrinsically tied to star formation rates. They are also energetic beacons from a region too dusty to study in detail otherwise. As more and more are discovered, new insights about what is happening in the Galaxy's spiral arms begin to emerge, Beckmann said.

IGR J16283-4838 revealed itself during an outburst on or near its surface. Neutron stars such as IGR J16283-4838 are often part of binary systems, orbiting a normal star. Occasionally, gas from the normal star, lured by gravity, crashes onto the surface of the neutron star and releases a great amount of energy. Outbursts can last for weeks before the system returns to dormancy for months or years.

INTEGRAL, the Rossi Explorer and Swift each detect X rays and gamma rays, which are far more energetic than the visible light our eyes can detect. Yet each satellite has different capabilities. INTEGRAL has a large field of view, enabling it to scan the Milky Way galaxy for neutron star and black hole activity.

Swift contains a high-resolution X-ray telescope, which allowed scientists to zero in on IGR J16283-4838. The Rossi Explorer has a timing spectrometer, a device used to uncover properties of the light source, such as speed and rapid variations on the order of a millisecond. The Galaxy's spiral arms block visible light from reaching us, but not energetic X rays and gamma rays.

Simona Soldi, a doctoral candidate at INTEGRAL Science Data Centre in Geneva discovered the new, bright source with INTEGRAL on April 7, 2005. "We are always hunting for new sources," she said. "It's exciting when we find something so elusive. How many more like this are out there?"

Because gamma rays are hard to focus into sharp images, the science team used the X-ray Telescope on Swift on April 13 and 15 to determine a precise location. Swift confirmed that the light was "highly absorbed," which means the binary system was filled with dense gas from the stellar wind of the companion star. Starting on April 14, the scientists used the Rossi Explorer to observe the source as it faded away. This observation revealed a familiar light signature clinching the case for a fading "high-mass X-ray binary" with a neutron star.

"Piece by piece we solved this puzzle," said Dr. Jamie Kennea of the Swift science team at Penn State. "Swift was built primarily to detect gamma-ray bursts, so it was thrill to use the X-ray Telescope to do something quite different, to discover a neutron star."

INTEGRAL, the International Gamma Ray Astrophysics Laboratory, was launched in 2002. The Rossi Explorer and Swift launched in 1995 and 2004, respectively.

Thanks to NASA Goddard News for sharing this story.

Posted by crose at July 13, 2005 10:00 AM