Consisting of atomic nuclei-subatomic scraps of matter-cosmic rays continually bombard Earth from all directions at nearly the speed of light. "It's an almost century-old question: where do cosmic rays come from?" Said Dietrich Muller, University of Chicago Professor in Physics, who heads the project. "We have learned a lot, but we have not found everything yet."

The balloon will carry Muller's 3-ton instrument to an altitude of almost 130,000 feet for up to a month to detect and identify the chemical composition of cosmic rays that have been accelerated to an energy of a quadrillion (1,000,000,000,000,000) electron volts. This is 1,000 times more energy than is generated by the most powerful man-made particle accelerator, the Tevatron at Fermi National Accelerator Laboratory.

These are the highest energies at which Muller's team can hope to observe a cosmic ray particle before it strikes molecules in the atmosphere and disappears in a cascade of secondary particles. Even higher-energy cosmic rays do occur, but their rarity makes them virtually impossible to detect during a weeks-long balloon experiment.

According to prevailing theory, shock waves of exploding stars (supernovae) from within the galaxy sweep up the particles that Muller studies and accelerates them to extremely high speeds. Exploding stars lack the power to account for the highest-energy cosmic rays, which may come from outside the galaxy.

"If this supernovae theory holds, there should be a cutoff," Muller said. Supernovae can probably accelerate particles up to a certain energy, "then they become inefficient." The theory predicts that experimenters should see a higher proportion of iron nuclei as particles reach higher and higher energies. "Nobody has ever really verified this," he said.

The experiment, funded by NASA, is a follow-up to a study conducted aboard the space shuttle Challenger in 1985. The data from that experiment, built by Muller and the late Peter Meyer, remain the most detailed ever obtained on the composition of cosmic rays at extreme energies.

Muller has good reason to travel to Antarctica to conduct this long-duration balloon experiment. "The balloon remains at a stable altitude without requiring ballast to be dropped if there is continual sunshine, which only is the case in Arctic or Antarctic summer," Muller said.

Muller had originally planned to launch his experiment from Fairbanks, Alaska, and fly around the Arctic Circle, but international red tape got in the way. "This launch was cancelled year after year because NASA and its Russian counterpart could not reach an agreement of overflight over Russian territory," he said. Only this year did it become possible to launch a balloon with a 3-ton payload from Antarctica's McMurdo Station.

"We often sit there for weeks and wait for the stratospheric wind pattern to be just right," said Muller, a veteran of approximately two dozen balloon launches. "You also cannot launch if you have strong winds on the surface."

The huge helium balloon that will carry Muller's experiment to the top of the atmosphere has enough plastic to shroud the Sears Tower, which stands 1,450 feet tall. Launching such a large balloon often leads to a race against the clock. "The meteorologists must guarantee that for the next two hours the wind is not going to shift. It can be a bit nerve-wracking," Muller said.

Once launched, the balloon will be at the mercy of the prevailing winds as it makes one and possibly two journeys around the South Pole collecting data. The experiment will end when scientists send a radio signal that will trigger a mechanism to cut the balloon from the payload, which is equipped with a parachute.

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