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Transcript
National Science Foundation • Division of Astronomical Sciences Gemini South telescope makes the case for multiple Earth-sized planets Prepared by the Association of Universities for Research in Astronomy National Science Foundation • Division of Astronomical Sciences SCIENCE PEOPLE TECHNOLOGY Nearby Exo-Earth Family Withstands Extreme Scrutiny Astronomers combined the power of the 8-meter Gemini South telescope in Chile with the extremely high-resolution camera called the Differential Speckle Survey Instrument (DSSI) to scrutinize the star TRAPPIST-1, confirming that the star is not a binary and that the presence of several Earth-sized planets is consistent with earlier observations. Previous observations of the star revealed dips in the star’s light, which would be expected if several small planets orbited the star. However, the conclusion that the star is host to these Earth-sized planets depends on the star’s being a single object (i.e., not a binary, or twin, star). The Gemini data show no star companions to the primary “host” star, to within a distance that is less than that of Mercury from our Sun. Faint “M-class” stars such as TRAPPIST-1 are of great interest to astronomers: their diminutive size allows easier detection of small, terrestrial planets. In the TRAPPIST-1 system, two of the planets appear to be very close to the host star, with orbits of 1.5 and 2.4 days. Characteristics of the third planet are more uncertain, but it is estimated to be within the habitable zone, where liquid water could exist on the planet’s surface. Gemini’s result came from the NSF-supported DSSI instrument, which provides extreme-resolution imaging by taking multiple short (60 millisecond) exposures to capture fine detail and “freeze” the turbulence caused by Earth’s atmosphere. With this technique, the final images yield a resolution equal to what the Gemini telescope would produce if it were in space. Thus, Gemini can uniquely resolve such faint, distant objects. Artist’s concept of the view from inside the TRAPPIST1 exoplanetary system showing three Earth-sized planets in orbit around the low-mass star. This alien planetary system is located only about 40 light years away. The Gemini South telescope provided the highest resolution images ever taken of the star, and found no additional stellar-mass companions. This provided strong evidence that three small, probably rocky, planets orbit this star. Prepared by the Association of Universities for Research in Astronomy
