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Yesterday astronomers released a new Hubble photograph of the
gamma-ray burst's fading optical counterpart. The relic fireball
appears to be embedded in a faint, irregular galaxy.
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A little more than a day after the gamma-ray burst astronomers
used the 10-meter Keck II
telescope on Mauna Kea to analyze ultraviolet
and visible light from the fading afterglow. They
measured a redshift z=1.6 for the visible light, which implies that
the explosion took place about 10 billion light years from Earth.
The discovery of a fuzzy blob near the location of GRB990123 marks the fourth uncontroversial association of a gamma-ray burst with what is apparently a distant galaxy. |
"These galaxies are so distant and so faint
that it's difficult to say much about them," explains Dr. Tom Koshut,
a gamma-ray astronomer at the NASA Marshall Space Flight Center. "We
know that they are very far away because absorption lines in their
optical spectra have a high redshift. But are they spiral galaxies, giant
ellipticals, or something bizarre and unfamiliar? It can be very hard to tell."
Although the nature of the optical afterglows of gamma-ray bursts and their host galaxies remain a puzzle, they have already answered one important question about gamma-ray bursters: "Where are they?" |
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![]() Until recently astronomers weren't sure whether gamma-ray bursts came from our own Solar System, the Milky Way galaxy, or much further away. With the discovery of optical counterparts it's now thought that most gamma-ray bursts come from the distant reaches of the cosmos. Last year Shri Kulkarni of Caltech and his colleagues found that a gamma-ray burst recorded in December 1997 came from a faint galaxy with a redshift of 3.4. That means that the burst originated over 12 billion light years away. Kulkarni noted that "The energy released by this burst in its first few seconds staggers the imagination." The next question is "What causes gamma-ray bursts?" Scientists are unsure. In the absence of much hard data theorists have proposed a multitude of possible scenarios, from super-supernovae to mutually annihilating neutron stars. It is widely thought that the studies of gamma-ray burst afterglows and their host galaxies might provide some clues. ![]() In the past, observations of visible light from gamma-ray bursts have all been made hours after the event had ended. The light by that time was so dim it could only be detected by the world's largest telescopes. Thanks to the development of the Gamma-ray burst Coordinates Network (GCN), optical telescopes can now be trained on bursts while the optical emission is still bright. This will result in better redshift measurements of the optical fireballs, and it will make astronomers better able to match up gamma-ray bursts with their host galaxies. For now the secret of gamma-ray bursts remains veiled in distant, mysterious fuzzy blobs. |
Web Links |
Cosmic
Gamma Ray Bursts NEWS & RESEARCH Gotcha! The big one that didn't get away. - Jan. 27, 1999. Describes the first optical photograph of a gamma-ray burst while the event was in progress. Gamma-ray Bursters cross the 'Line of Death' - Oct. 13, 1998. A study of gamma ray burst spectra shows one more thing that these mysterious, cosmological gamma ray bursts are not. Blast from the past: the latest clue in solving the gamma-ray burst mystery (May 6, 1998). Gamma-ray burst identification earns top prize (Jan. 12, 1998) Twinkle, twinkle, massive fireball - reports from the 4th Huntsville Gamma-ray Burst Symposium (Sept. 17, 1997) Discovery may be "smoking gun" in gamma-ray mystery (March 31, 1997). More Space Science Headlines - NASA research on the web NASA's Office of Space Science press releases and other news related to NASA and astrophysics |
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