A supernova discovered 24 August 2011 is closer to Earth - approximately 21 million light-years away - than any other of its kind in a generation. Astronomers believe they caught the supernova within hours of its explosion, a rare feat made possible with a specialized survey telescope and state-of-the-art computational tools.
The finding of such a supernova so early and so close has energized the astronomical community as they are scrambling to observe it with as many telescopes as possible, including the Hubble Space Telescope.
Joshua Bloom, an astronomy researcher at the University of California, Berkeley, called it "the supernova of a generation." Astronomers at Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley, who made the discovery, predict that it will be a target for research for the next decade, making it one of the most-studied supernovae in history.
The supernova, dubbed PTF 11kly, occurred in the Pinwheel Galaxy located in the "Big Dipper" (otherwise known as the Ursa Major constellation). It was discovered by the Palomar Transient Factory (PTF) survey, which is designed to observe and uncover astronomical events as they happen.
"We caught this supernova very soon after explosion. PTF 11kly is getting brighter by the minute. It's already 20 times brighter than it was yesterday," said Peter Nugent, the senior scientist at Berkeley Lab who first spotted the supernova. "Observing PTF 11kly unfold should be a wild ride. It is an instant cosmic classic."
He credits supercomputers at the National Energy Research Scientific Computing Center, a Department of Energy high-performance computing center at Berkeley Lab, and high-speed networks with uncovering this rare event in the nick of time.
The PTF survey uses a robotic telescope mounted on the 48-inch Samuel Oschin Telescope at Palomar Observatory in Southern California to scan the sky nightly. As soon as the observations are taken, the data travels more than 400 miles to NERSC via the National Science Foundation's High Performance Wireless Research and Education Network and DOE's Energy Sciences Network (ESnet). At NERSC, computers running machine learning algorithms in the Real-time Transient Detection Pipeline scan through the data and identify events to follow up on. Within hours of identifying PTF 11kly, this automated system sent the coordinates to telescopes around the world for follow-up observations.
Three hours after the automated PTF pipeline identified this supernova candidate, telescopes in the Canary Islands (Spain) had captured unique "light signatures," or spectra, of the event. Twelve hours later, his team had observed the event with a suite of telescopes including the Lick Observatory (California, USA), and Keck Observatory (Hawaii, USA) and had determined the supernova belongs to a special category, called Type Ia. Nugent noted that this is the earliest spectrum ever taken of a Type Ia supernova.
"Type Ia supernova are the kind we use to measure the expansion of the Universe. Seeing one explode so close by allows us to study these events in unprecedented detail," said Mark Sullivan, the Oxford University team leader who was among the first to follow up on this detection.
"We still do not know for sure what causes such explosions," said Weidong Li, senior scientist at UC Berkeley and collaborator of Nugent. "We are using images from the Hubble Space Telescope, taken fortuitously years before an explosion to search for clues to the event's origin."
The team will be watching carefully over the next few weeks, and an urgent request to NASA means the Hubble Space Telescope was able to begin studying the supernova's chemistry and physics only a few days after it was detected.
Catching supernovae so early allows a rare glimpse of the outer layers of the supernova, which contain hints about what kind of star exploded. "When you catch them this early, mixed in with the explosion you can actually see unburned bits from the star that exploded! It is remarkable," said Andrew Howell of UC Santa Barbara and Las Cumbres Global Telescope Network. "We are finding new clues to solving the mystery of the origin of these supernovae that has perplexed us for 70 years. Despite looking at thousands of supernovae, I've never seen anything like this before."
"The ability to process all of this data in near real-time and share our results with collaborators around the globe through the Science Gateway at NERSC is an invaluable tool for following up on supernova events," Nugent said.
At a mere 21 million light-years from Earth - a relatively small distance by astronomical standards - the supernova is expected to reach its peak brightness on 9 September, when it will appear brighter than any other supernova of its type has in the last 30 years. It will remain visible with binoculars for another week from a dark sky, and using a telescope of about four inches for another two months.
"The best time to see this exploding star will be just after evening twilight in the Northern hemisphere in a few days," Sullivan said. "You'll need dark skies and a good pair of binoculars, although a small telescope would be even better."
The scientists in the PTF have discovered more than 1,000 supernovae since it started operating in 2008, but they believe this could be their most significant discovery yet. The last time a supernova of this sort occurred so close was in 1986, but Nugent notes that this one was peculiar and heavily obscured by dust.
"Before that, you'd have to go back to 1972, 1937 and 1572 to find more nearby Type Ia supernovae," Nugent said.
Help out with your astronomical images
The Palomar Transient Factory team is requesting help from people who observed the galaxy M101 between the dates 22 August and 24 August 2011. Images of the galaxy recorded during these nights may help establish the exact time of the PTF 11kly explosion and its early evolution. People who may have useful data are encouraged to send an email to firstname.lastname@example.org.
Star party with the astronomers who discovered the supernova
If you are in the San Francisco Bay Area, swing by the Chabot Space & Science Center on 10 September to meet the astronomers that discovered the supernova, and see it for yourself through the museum's giant, historic telescopes (weather permitting). The telescope viewing is free.
A version of this article first appeared on the Berkeley Labs website.