Infrared Space Interferometry: Astrophysics & the Study of Earth-Like Planets e-bog
436,85 DKK
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The past year has produced some of the most exciting results in the history of astronomy, particularly in the area of planets outside our solar system. Only a half-year before our meeting in Toledo, Spain, the first unambiguous detection of planet-sized masses orbiting main sequence stars were reported. Since that time, evidence for a new exo- planet has been reported almost at the rate of abou...
E-bog
436,85 DKK
Forlag
Springer
Udgivet
6 december 2012
Genrer
Astronomical observation: observatories, equipment and methods
Sprog
English
Format
pdf
Beskyttelse
LCP
ISBN
9789401154680
The past year has produced some of the most exciting results in the history of astronomy, particularly in the area of planets outside our solar system. Only a half-year before our meeting in Toledo, Spain, the first unambiguous detection of planet-sized masses orbiting main sequence stars were reported. Since that time, evidence for a new exo- planet has been reported almost at the rate of about once per month. Some of these objects are likely to turn out to be very low-mass stars, but something like half show characteristics - Jupiter-like mass and near-zero orbital eccentricity - which appear to be unique to planets. Almost at the same time that giant planets were being discovered regularly, the two major space agencies, ESA and NASA, have iden- tified searches for and detailed study of Earth-like planets as a major priority for the future. In ESA's "e;Horizon 2000 Plus"e; programme, an infrared interferometer has been proposed as a possible future Cor- nerstone mission. Similarly, scientists in the US produced the "e;Road Map for the Exploration of Neighboring Planetary Systems (ExNPS)"e;, which provided NASA with a long-term plan which leads also to an infrared interferometer in space to study hypothetical Earth-like worlds beyond our Solar System. Such an observatory is designed to search for the thermal emission from a family of planets, using interferometric nulling to remove the contaminating light from the central star.