Spacecraft to study Gamma-Ray bursts

By: John Johnson

The Swift spacecraft launched into orbit Saturday, November 2, 2004, carrying a payload of scientific instruments designed to probe some of the most powerful - and fleeting - explosive forces in the universe.

After delays caused by weather and an equipment malfunction on the venerable Delta II launch vehicle, the rocket lifted off shortly after noon from Kennedy Space Center in Florida. The 20-foot-tall spacecraft successfully separated from the rocket booster a little over an hour later, NASA announced.

Orbiting Earth at 325 miles, the nimble Swift spacecraft will try to unravel one of the strangest phenomena in the cosmos, an awesome fireworks display known as a Gamma-ray burst. These bursts of energy, which occur on almost a daily basis in some corner of the universe, are the most intense burst of electromagnetic radiation ever measured.

The Gamma-ray bursts it will try to catch “burn as brightly as a billion, billion suns,” said Anne Kinney, director of the Universe division at the National Aero- nautics and Space Administration. Although not visible to the naked eye, in the few seconds before they flicker out, they release more energy than the sun will in it’s entire life span

During its two-year mission, Swift is expected to pinpoint as many as 150 bursts. It is expected to take four months or more to just activate and calibrate the instru- ments on board, at which point the spacecraft will begin its serious work. Gamma-ray bursts “are the most interesting, amazing phenomena in astrophysics,” said Neil Gehrels, the principal investigator for Swift at NASA’s Goddard Space Flight Center in Maryland.

The problem is, they are also among the most fleeting cosmological events. Some last only milliseconds, while the longest recorded burst only went on for 100 seconds. That’s what has made them so difficult to study. By the time astronomers could focus in on them, they were gone. This is why space scientists are not even certain what causes them. Speculation ranges from collisions between neutron stars, or even black holes. More adventurous theoreticians think the evaporation of a black hole might also cause a burst of Gamma energy The current favorite expla- nation is that they represent the death throes of the first generation of giant stars that formed shortly, in cosmological terms, after the Big Bang. T he $239 million Swift mission collaboration between NASA, the United Kingdom and Italy may solve the riddle once and for all.

Using sophisticated capture-and-focus equipment consisting of six different reaction wheels as well as specially designed soft-ware. If all works as it should, it will home in on a Gamma-ray burst in as little as 20 seconds. “For the first time we will be observing (bursts) when they are really bright,” said Gehrels. “Swift is fine-tuned to quickly locate these bursts and study them in several different wavelengths before they disappear forever.”

While the night sky appears to be a place of pastoral symmetry, it’s a false front, scientists say. If humans could see the sky with Gamma-ray vision, the heavens would be transformed into a marvelous place of unimaginable tumult. Compared to other forms of electromagnetic radiation radio waves, infrared, visible light, ultra-violet and X-rays - Gamma-rays are the most energetic, with the highest frequencies and shortest wavelengths. They would present a serious hazard to life on Earth if the atmosphere did not prevent them from reaching the surface.

The discovery of Gamma bursts in the heavens was a sheer fluke. The U.S. Air Force launched its Vela satellite in the mid-60s to keep an eye on the Soviets’ adherence to the recently signed nuclear test ban treaty In July 1967, the satel- lite captured a Gamma-ray burst, a telltale sign of nuclear testing. Only it didn’t come from Earth, but out in the interstellar wastes.

Defense officials were so dumbstruck that they quickly classified the discovery and didn’t release it to the public for years. “It took quite a while to understand what we were seeing,” said Gehrels.

Past efforts to study the phenomenon have yielded some hints about what’s going on. From NASA’s Compton Gamma Ray Observatory, which detected 2,700 bursts over nine years, scientists learned that the bursts were originating far outside the e Milky Way

Several years later, a Netherlands-Italian satellite detected an X-ray “afterglow” following the Gamma burst. This enabled scientists for the first time to accurately calculate the size of an energy burst. They found it was an astonishing 1,000 times more luminous than a quasar, a class of very distant stars that are themselves more luminous than entire galaxies

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