By the next night, the afterglow was too faint to yield a useful spectrum, and over the following nights it faded from view completely.
"It was frustrating to lose sight of this burst, but the hints we had were so exciting there was no chance of us letting it go," said the study’s leader, Antonino Cucchiara, who was a graduate student at Pennsylvania State University at the time and is now at the University of California, Berkeley.
Nonetheless, the researchers were able to learn enough to estimate that the explosion is very likely farther than any other gamma-ray burst known, and probably farther than even the most distant galaxies yet seen.
"If I were in Vegas, I would never bet against the odds that this is the most distant GRB ever seen, and we estimate that there is even a 23 percent chance that it is the most distant object ever observed in the universe," Cucchiara said in a statement.
The universe, piece by piece
The finding was announced today here at the 218th meeting of the American Astronomical Society in Boston.
By studying space explosions like this, astronomers are trying to better understand how gamma-ray bursts, the most powerful explosions in the universe, occur
"The key question we want to answer is, what is the exact mechanism that produced this gamma-ray burst?" Cucchiara said during a news conference today. "We don't know right now the exact mechanism."
Astronomers also hope to piece together a better picture of the history of the universe as a whole.
"The galaxy hosting the progenitor star of GRB 090429B was truly one of the first galaxies in the universe," said co-researcher Derek Fox, an astronomer at Pennsylvania State University. "Beyond the possible cosmic distance record, GRB 090429B illustrates how gamma-ray bursts can be used to reveal the locations of massive stars in the early universe and to track the processes of early galaxy and star formation that eventually led to the galaxy-rich cosmos we see around us today."