UC Irvine TODAY UC Irvine homepage UC Irvine TODAY

UC Irvine TODAY

News

News

Tuesday, September 30, 2014

News Release

Giant supernovae farthest ever detected

Dying stars shed light on universe formation 11 billion years ago

— Irvine, Calif., July 8, 2009 —

UC Irvine cosmologists have found two supernovae farther away than any previously detected by using a new technique that could help find other dying stars at the edge of the universe.

This method has the potential to allow astronomers to study some of the very first supernovae and will advance the understanding of how galaxies form, how they change over time and how Earth came to be.

"When stars explode, they spew matter into space. Eventually, gravity collapses the matter into a new star, which could have planets such as Earth around it," said Jeff Cooke, McCue Postdoctoral Fellow in physics & astronomy, who reports his findings July 9 in the journal Nature.

The supernovae Cooke and colleagues found occurred 11 billion years ago. The next-farthest large supernova known occurred about 6 billion years ago.

A supernova occurs when a massive star (more than eight times the mass of the sun) dies in a powerful, bright explosion. Cooke studies larger stars (50 to 100 times the mass of the sun) that blow part of their mass into their surroundings before they die. When they finally explode, the nearby matter glows brightly for years.
Typically, cosmologists find supernovae by comparing pictures taken at different times of the same swath of sky and looking for changes. Any new light could indicate a supernova.

Cooke built upon this idea. He blended pictures taken over the course of a year, then compared them with image compilations from other years.

"If you stack all of those images into one big pile, then you can reach deeper and see fainter objects," Cooke said. "It's like in photography when you open the shutter for a long time. You'll collect more light with a longer exposure."

Doing this with images from the Canada-France-Hawaii Telescope in Hawaii, Cooke found four objects that appeared to be supernovae. He used a Keck telescope to look more closely at the spectrum of light each object emitted and confirmed they were indeed supernovae.

"The universe is about 13.7 billion years old, so really we are seeing some of the first stars ever formed," Cooke said.

Cooke and other scientists with UCI's Center for Cosmology last year discovered a cluster of galaxies in a very early stage of formation that occurred 11.4 billion years ago, the farthest of its kind ever detected. The galaxy proto-cluster, named LBG-2377, is giving cosmologists unprecedented insight into galaxy formation and the evolution of the universe.

UCI scientists Elizabeth Barton, James Bullock and Erik Tollerud, along with Mark Sullivan of Oxford University, Avishay Gal-Yam of the Benoziyo Center for Astrophysics in Israel, and Ray Carlberg of the University of Toronto, also contributed to the supernova study.

The research was funded by the National Science Foundation and generous donations from Gary McCue to the Center for Cosmology.

About the University of California, Irvine: Founded in 1965, UCI is a top-ranked university dedicated to research, scholarship and community service. Led by Chancellor Michael Drake since 2005, UCI is among the fastest-growing University of California campuses, with more than 27,000 undergraduate and graduate students, 1,100 faculty and 9,200 staff. The top employer in dynamic Orange County, UCI contributes an annual economic impact of $4.2 billion. For more UCI news, visit http://today.uci.edu/.

News Radio: UCI maintains on campus an ISDN line for conducting interviews with its faculty and experts. Use of this line is available for a fee to radio news programs/stations that wish to interview UCI faculty and experts. Use of the ISDN line is subject to availability and approval by the university.

Eta Carinae
Eta Carinae, a star in the Milky Way galaxy that is 7,500 light years from Earth, will become a supernova similar to those detected by Jeff Cooke and colleagues. In contrast, the newly found supernovae are more than a million times as far away.
Photo by NASA
Jeff Cooke
Jeff Cooke
Elizabeth Barton
Elizabeth Barton
Photo by Paul R. Kennedy
James Bullock
James Bullock
Photo by Daniel A. Anderson / University Communications

Related Links

Media Contact

Cathy Lawhon
University Communications
949-824-1151
clawhon@uci.edu

University of California, Irvine
University of California, Irvine - Irvine, CA 92697 : 949-824-5011
Comments & Questions | Privacy & Legal Notice | Copyright Inquiries | © 2014 UC Regents