Argon find bodes well for Rosetta's noble mission
EUROPEAN SPACE AGENCY NEWS RELEASE
Posted: June 17, 2000
The discovery was made by an ultraviolet spectrometer that flew aboard a Black Brant rocket on a brief suborbital lob over New Mexico in March 1997. The instrument was designed and built by scientists from Southwest Research Institute (SwRI), based in San Antonio, Texas, and collaborators from the University of Colorado, the University of Maryland, and the Observatoire de Midi-Pyrenees in France.
Its task was to study the reflected ultraviolet light from the comet in an effort to learn more about its composition and history. However, the argon find was only made possible by Hale-Bopp's unusually high brightness as it made its closest approach to the Sun.
"The argon signals are weak, but unmistakable," said Dr. Alan Stern, director of the SwRI Space Studies Department and principal investigator for the ALICE instrument on Rosetta. "We had previously suspected their presence, but were able to recently confirm the result when we cross-compared two independent spectra obtained by our rocket instrument back in 1997."
The presence of argon is important because noble gases do not interact chemically with other elements and are easily lost from icy bodies like comets through sublimation -- a process much like evaporation. This means they can be used to indicate the temperature of a comet during its formation and its evolutionary history.
Although the spectral signature of the gas was quite weak, the data indicated that the comet contained more argon than expected, when compared to the composition of the Sun. The argon abundance in Hale-Bopp was so high that the comet must have formed far from the Sun and spent almost its entire life -- about 4.5 billion years -- in the cold, frigid outer reaches of the Solar System.
Dr. Stern believes that this breakthrough is just the start of a new series of discoveries about comets.
"We want to see if other comets are also enriched in noble gases," he explained. "Using even more sensitive instruments, such as the ALICE spectrometer on board Rosetta, we look forward to comparing different comets to one another to learn about the diversity of cometary birthplaces. We also want to see if different parts of a comet have similar amounts of noble gases. This will tell us if different regions have different origins."
The ALICE experiment on Rosetta is a state-of-the-art ultraviolet spectrometer which weighs a mere 3 kg compared with the 180 kg instrument carried aloft by the sounding rocket. Apart from its ability to search for noble gases in the coma or cloud of material surrounding Comet Wirtanen, ALICE will also study the coma's composition, look for dust in the coma and map the surface of the comet's nucleus in ultraviolet light.
The Rosetta spacecraft and its complement of 11 instruments, including ALICE, is scheduled to arrive at Comet Wirtanen in 2011 after an eight-year odyssey which will include two close asteroid flybys. Compared with Hale-Bopp, Comet Wirtanen is a much smaller, less active body that has been considerably altered as it orbits the Sun once every 5.45 years. Its aphelion (maximum distance from the Sun) is currently about 768 million km, near the orbit of Jupiter. In contrast, Hale-Bopp's orbit is so huge that it will not return to the Sun's vicinity for another 2,400 years.