Skip to content. | Skip to navigation

Home > News and Events > 2010 News > Record-Breaking X-ray Blast Briefly Blinds Space Observatory

Record-Breaking X-ray Blast Briefly Blinds Space Observatory

Main Content

14 July 2010 —
The brightest gamma-ray burst ever seen in X-rays temporarily blinded Swift's X-ray Telescope on 21 June 2010. This image merges the X-rays (red to yellow) with the same view from Swift's Ultraviolet/Optical Telescope, which showed nothing extraordinary.  (The image is 5 arcminutes across.)  NASA/Swift/Stefan Immler The brightest gamma-ray burst ever seen in X-rays temporarily blinded Swift's X-ray Telescope on 21 June 2010. This image merges the X-rays (red to yellow) with the same view from Swift's Ultraviolet/Optical Telescope, which showed nothing extraordinary. (The image is 5 arcminutes across.)Credit: NASA/Swift/Stefan Immler

A blast of the brightest X-rays ever detected from beyond our Milky Way galaxy's neighborhood temporarily blinded the X-ray eye on NASA's Swift space observatory earlier this summer, astronomers now report. The X-rays traveled through space for 5-billion years before slamming into and overwhelming Swift's X-ray Telescope on 21 June.  The blindingly bright blast came from a gamma-ray burst, a violent eruption of energy from the explosion of a massive star morphing into a new black hole.  "This gamma-ray burst is by far the brightest light source ever seen in X-ray wavelengths at cosmological distances," said David Burrows, senior scientist and professor of astronomy and astrophysics at Penn State University and the lead scientist for Swift's X-ray Telescope (XRT).

Although the Swift satellite was designed specifically to study gamma-ray bursts, the instrument was not designed to handle an X-ray blast this bright.  "The intensity of these X-rays was unexpected and unprecedented" said Neil Gehrels, Swift's principal investigator at NASA's Goddard Space Flight Center.  He said the burst, named GRB 100621A, is the brightest X-ray source that Swift has detected since the observatory began X-ray observation in early 2005.  "Just when we were beginning to think that we had seen everything that gamma-ray bursts could throw at us, this burst came along to challenge our assumptions about how powerful their X-ray emissions can be," Gehrels said.

"The burst was so bright when it first erupted that our data-analysis software shut down," said Phil Evans, a postdoctoral research assistant at the University of Leicester in the United Kingdom who wrote parts of Swift's X-ray-analysis software.  "So many photons were bombarding the detector each second that it just couldn't count them quickly enough.  It was like trying to use a rain gauge and a bucket to measure the flow rate of a tsunami."

The software soon resumed capturing the evolution of the burst over time, and Evans recovered the data that Swift had detected during the software's brief shutdown.  The scientists then were able to measure the blast's X-ray brightness at 143,000 X-ray photons per second during its fleeting period of greatest brightness, which is more that 14 times brighter than the brightest continuous X-ray source in the sky -- a neutron star that is more than 500,000 times closer to Earth than the gamma-ray burst, and that sends a 'mere' 10,000 photons per second streaming toward Swift's telescopes.

Gamma-ray bursts typically begin with a bright flash of high-energy gamma-rays and X-rays, then fade away like a fireworks display, sometimes leaving behind a disappearing afterglow in less-energetic wavelengths, including optical and ultraviolet.  Surprisingly, although the energy from this burst was the brightest ever in X-rays, it was merely ordinary in optical and ultraviolet wavelengths.

The Swift scientists were able to estimate the overall brightness of GRB 100621A by sampling the photons at some distance from its overexposed center -- a standard correction technique.  Scientists who study the Sun use a similar approach to observe the Sun's corona by blocking out its much-brighter center.  "With this burst, we had to sample the photons twice as far from the center as we ever had to go before," Burrows said.  "The correction factor for the X-rays from GRB 100621A was 168 times larger than for a typical gamma-ray burst and 5 times larger than for the brightest burst we previously had seen.  We never thought we'd see anything this bright."

Automated analysis of the Swift XRT data is performed at the University of Leicester in the United Kingdom, which has been studying X-rays from outer space for the past half century.  Evans was the first to see the processed data from the burst's initial blast.  "When I first saw the strange data from this burst, I knew that I had discovered something extraordinary," he said.  "It was an indescribable feeling when I realized, at that moment, that I was the only person in the whole universe who knew that this extraordinary event had occurred.  Now, after our analysis of the data, we know that this burst is one for the record books."

Other members of the research team include Tilan Ukwatta at NASA Goddard Space Flight Center and Valerio D'Elia and Giulia Stratta at the ASI Science Data Center in Italy.

[ Barbara K. Kennedy ]


SCIENCE CONTACTS:

  • David Burrows, lead scientist for Swift's X-ray Telescope and a senior scientist and professor of astronomy and astrophysics at Penn State: 814 865-7707, burrows@astro.psu.edu
  • Neil Gehrels, Swift principal investigator at NASA's Goddard Space Flight Center: 301-286-6546, gehrels@gsfc.nasa.gov


P.I.O. CONTACTS:


MORE ABOUT GRB 100621A
NASA's "Geeked on Goddard" blog has a related story about the GRB 100621A burst at
http://geeked.gsfc.nasa.gov/?p=1417

ABOUT THE SWIFT OBSERVATORY
The Swift observatory was launched in November 2004 and was fully operational by January 2005.  Swift carries three main instruments: the Burst Alert Telescope, the X-ray Telescope, and the Ultraviolet/Optical Telescope.  Its science and science and flight operations are controlled by Penn State from the Mission Operations Center in State College, Pennsylvania.  Swift's gamma-ray detector, the Burst Alert Telescope, provides the rapid initial location and was built primarily by the NASA Goddard Space Flight Center in Greenbelt, Maryland, and Los Alamos National Laboratory in New Mexico and constructed at GSFC.  Swift's X-Ray Telescope and UV/Optical Telescope were developed and built by international teams led by Penn State and drew heavily on each institution's experience with previous space missions.  The X-ray Telescope resulted from Penn State's collaboration with the University of Leicester in the United Kingdom and the Brera Astronomical Observatory in Italy.  The Ultraviolet/Optical Telescope resulted from Penn State's collaboration with the Mullard Space Science Laboratory of the University College-London.  These three telescopes give Swift the ability to do almost immediate follow-up observations of most gamma-ray bursts because Swift can rotate so quickly to point toward the source of the gamma-ray signal.  The spacecraft was built by General Dynamics.

Document Actions

Share this page: |

Footer

Personal tools