It’s a nova … it’s a supernova … it’s a HYPERNOVA
Two billion years ago, in a far-away galaxy, a giant star exploded, releasing almost unbelievable amounts of energy as it collapsed to a black hole. The light from that explosion finally reached Earth at 6:37 a.m. EST on March 29, igniting a frenzy of activity among astronomers worldwide. This phenomenon has been called a hypernova, playing on the name of the supernova events that mark the violent end of massive stars.
With two telescopes separated by about 110 degrees longitude, the Robotic Optical Transient Search Experiment (ROTSE) will have one of the most continuous records of this explosion.
“The optical brightness of this gamma ray burst is about 100 times more intense than anything weve ever seen before. Its also much closer to us than all other observed bursts so we can study it in considerably more detail,” said Carl W. Akerlof, an astrophysicist in the Physics Department at the University of Michigan. Akerlof is the leader of ROTSE, an international collaboration of astrophysicists using a network of telescopes specially designed to capture just this sort of event. The collaboration is headquartered at U-M and funded by NASA and the National Science Foundation (NSF).
Just recently, the ROTSE group commissioned two optical telescopes in Australia and Texas and were waiting for the first opportunities to use the new equipment. The burst was promptly detected by NASAs Earth orbiting High-Energy Transient Explorer (HETE-2) but human intervention was required to find the exact location. Despite sporadic clouds and rainstorms in Australia, the ROTSE instrument at Siding Spring Observatory in northern New South Wales was able to record the decaying light from the blast. Twelve hours later, the second ROTSE telescope in Fort Davis, Texas was picking up the job of monitoring this spectacular explosion.
“During the first minute after the explosion it emitted energy at a rate more than a million times the combined output of all the stars in the Milky Way. If you concentrated all the energy that the sun will put out over its entire 9 billion-year life into a tenth of a second, then you would have some idea of the brightness,” said Michael Ashley, faculty member in the astrophysics and optics department at the University of New South Wales and a member of the ROTSE team.
Akerlof became interested in studying gamma ray bursts in the early 1990s. While they are the most powerful explosions in the universe, gamma-ray bursts are extremely hard to study because they are extremely distant, occur randomly in time and seldom last more than a minute. Small, fast, and relatively inexpensive robotic ground-based telescopes like ROTSE offer the best chance of catching early optical emissions from the bursts. ROTSE attracted national notice in 1999 when it captured the rise and fall of GRB990123, one of the brightest bursts prior to this latest event.
“The ROTSE equipment is quite modest by modern standards, but its wide field of view and fast response allow it to make measurements that more conventional instruments cannot,” Akerlof said. “We have two telescopes online now, and installations in Namibia and Turkey will follow soon. Our goal is to have telescopes continuously trained on the night sky. Our motto is “The Sun never rises on the ROTSE array.” Thats why we want them spread as widely as possible.”
Another role for ROTSE and other small telescopes is to alert larger facilities about gamma ray bursts and other transient phenomena. “One of the most exciting things about an event like this is the way the global community of scientists pulls together, pooling their data and their different capabilities,” Akerlof said.
For more information about ROTSE, visit http://www.rotse.net. To learn more about physics at the U-M visit http://www.physics.lsa.umich.edu. For more about Carl Akerlof, see http://www.physics.lsa.umich.edu/department/directory/bio.asp?ID=5.
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