Paula Cleggett-Haleim Headquarters, Washington, D.C. November 10, 1993 (Phone: 202/358-0883) Embargoed until Nov. 11, 6 p.m. Michael Finneran Goddard Space Flight Center, Greenbelt, Md. (Phone: 301/286-5565) RELEASE: 93-208 IO'S "GHOST" DETECTED ON JUPITER A faint spot of infrared emission that moves across Jupiter in concert with the orbital motion of its moon Io has been discovered by researchers at NASA's Goddard Space Flight Center, Greenbelt, Md., and the University of Hawaii. "What we're looking at is a false image -- or ghost -- of Io that appears near the limb, or visible edge, of Jupiter when Io is in a favorable orbital position," said Goddard's Dr. John E.P. Connerney, lead author of a paper published in the Nov. 12 issue of the journal "Science." The image is caused by the electrical interaction between Io and Jupiter's magnetic field. This interaction generates about 5 million amperes of current and 2 million megawatts of power -- roughly three times the total electrical generation capacity of the United States, Connerney said. "In a sequence of many images, the spot appears and disappears like clockwork, as Io moves into and out of the appropriate orbital position," he said. The image was detected with NASA's 3-meter infrared telescope atop the Mauna Kea volcano on the island of Hawaii. The Infrared Telescope Facility is operated by the University of Hawaii under contract to NASA. Scientists have known for nearly 30 years that Io plays a significant role in Jupiter's magnetosphere, a vast region around the planet influenced by Jupiter's intense magnetic field. In their 1979 fly-bys, the Voyager I and II spacecraft yielded important clues about this interaction, such as the discovery of active volcanoes on Io and the measurement of the electrical current generated by this moon. - more - - 2 - Io is the innermost of Jupiter's four principal moons and is 263,000 miles (420,000 kilometers) from the planet. Io is about the size of Earth's moon and roughly the same distance from Jupiter as Earth's moon is from Earth. Until now, researchers did not know if Io's electrical current penetrated into Jupiter's atmosphere or simply scattered into space. The Voyager missions had led scientists to believe that the current was carried off the moon and did not reach the planet's atmosphere. Researchers 25 years ago, however, had speculated what now has been definitively learned -- that this electrical current reaches Jupiter. Connerney said the recent findings should help scientists working on the Galileo mission to study the interaction between Jupiter and Io more closely. The Galileo spacecraft is scheduled to arrive at Jupiter in 1995 and will orbit the planet for several years, conducting an extensive scientific investigation of the Jovian system. "They have several instruments onboard Galileo that could track this thing down," Connerney said, "and now we know exactly where to point the telescopes." Collaborating with Connerney on the "Science" paper were Richard Baron and Toby Owen of the Institute for Astronomy at the University of Hawaii and Takehiko Satoh of Hughes-STX in Greenbelt, Md. - end - EDITORS' NOTE: 8 x 10 color prints are available to news media representatives by calling the Goddard Office of Public Affairs at 301/286-5565.