Upsilon Andromedae (υ Andromedae / Ups And) is a binary star, approximately 44 light-years away in the constellation Andromeda. The system contains a yellow-white dwarf star (Upsilon Andromedae A) similar to the Sun and a dim red dwarf (Upsilon Andromedae B). The two stars are separated by around 750 times the distance from the Earth to the Sun.

As of 1999, three extrasolar planets are known in orbit around Upsilon Andromedae A. All three are comparable to Jupiter in mass. Upsilon Andromedae was both the first multiple-planet planetary system to be discovered around a main sequence star, and the first multiple-planet system known in a multiple star system.

Upsilon Andromedae A is ranked 12th in the list of top 100 target stars for the NASA Terrestrial Planet Finder mission.

Distance and visibility

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Upsilon Andromedae is located fairly close to our solar system: the parallax of Upsilon Andromedae A was measured by the Hipparcos astrometry satellite as 74.25 milliarcseconds, corresponding to a distance of 13.5 parsecs. Upsilon Andromedae A has an apparent magnitude of +4.09, making it visible to the naked eye under good conditions, about 10 degrees east of the Andromeda Galaxy. The dimmer star Upsilon Andromedae B is only visible with a telescope.

System components

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Upsilon Andromedae A is a yellow-white dwarf of spectral type F8V, similar to our Sun but rather younger, more massive and luminous. According to its entry in the Geneva-Copenhagen survey, the star is around 3.3 Gyr old, and has a similar proportion of iron relative to hydrogen as the Sun. At around 1.3 solar masses, it will have a shorter lifetime than our Sun. The amount of ultraviolet radiation received by any planets in the star's habitable zone would be similar to the ultraviolet flux the Earth receives from the Sun.

Upsilon Andromedae B is a red dwarf of spectral type M4.5V located at a projected distance of 750 AU from the primary star. It was discovered in 2002 in data collected as part of the Two Micron All Sky Survey. The star is less massive and far less luminous than our Sun.

The Washington Double Star Catalog lists two optical components, however these do not share the system's proper motion and only appear close to Upsilon Andromedae because they happen to lie near the same line of sight.

Planetary system

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The innermost planet of the Upsilon Andromedae A system was discovered in 1996 and announced in January of 1997, together with the planet of Tau Boötis and the innermost planet of 55 Cancri A. The discovery was made by Geoffrey Marcy and R. Paul Butler, both astronomers at San Francisco State University. The planet, designated Upsilon Andromedae b, was discovered by measuring changes in the star's radial velocity induced by the planet's gravity. Because of its closeness to the parent star, it induced a large wobble which was detected relatively easily. The planet appears to be responsible for enhanced activity in the chromosphere of its star.

Even when this planet was taken into account, there still remained significant residuals in the radial velocity measurements, and it was suggested there might be a second planet in orbit. In 1999, astronomers at both San Francisco State University and the Harvard-Smithsonian Center for Astrophysics independently concluded that, in fact, a three-planet model best fit the data. The two outer planets were designated Upsilon Andromedae c and d in order of increasing distance from the star. Both of the two outer planets are in more eccentric orbits than any of the planets in our solar system (including Pluto). The outermost planet resides in the system's habitable zone. In 2001, preliminary astrometric measurements suggested the orbit of the outermost planet is inclined at 155.5° to the plane of the sky, implying its true mass may lie between 9 and 10 Jupiter masses.

The existence of further planets too small or distant to detect has not been ruled out, though the presence of Jupiter-mass planets as close as 5 AU from Upsilon Andromedae A would make the system unstable. Simulations show that the eccentricity of the system's planets may have arisen from a close encounter between the outer planet and a fourth planet, with the result that the fourth planet was ejected from the system or destroyed. As a result, the orbit of Upsilon Andromedae c gradually oscillates between circular and eccentric states every 6,700 years.

Upsilon Andromedae A does not appear to have a circumstellar dust disk similar to the Kuiper belt in our solar system. This may be the result of perturbations from the companion star removing material from the outer regions of the Upsilon Andromedae A system.

See also

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• 51 Pegasi
• PSR 1257+12

References

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External links

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• SIMBAD: HD 9826 -- High proper-motion Star
• SIMBAD: 2MASS J01365042+4123325 -- Star
• Extrasolar Planets Encyclopaedia: Notes for star Ups And
• SolStation: Upsilon Andromedae 2
• SFSU: Upsilon Andromedae
• Harvard-Smithsonian CfA: Upsilon Andromedae
• Extrasolar Visions: Upsilon Andromedae
• SpaceDaily: How The Orbits Of Extrasolar Planets Became So Eccentric
• Planet Project: Upsilon Andromedae
• Astro Encyclopedia: Upsilon Andromedae

Andromeda constellation | Bayer objects | Planetary systems | Yellow-white dwarfs | Extrasolar planets

Upsilon Andromedae | Ypsilon Andromedae | Upsilon Andromedae | Upsilon Andromedae | Ypsilon Andromedae | Υ Андромеды | Ypsilon Andromedae