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'''Bellerophon''' is the first planet discovered around a sun like star outside of the solar system. It is the prototypical ]. '''Bellerophon''' is the first planet discovered around a sun-like star outside of the ]. It is the prototypical ]. It orbits the star ] in the ].


===The name=== ===The name===
The name of the exoplanet is "51 Peg b", the b used to indicate it is the first companion of its parent star. Further companions would be designated c, d, and so on. It has been informally named ']'. ''Bellerophon'' was a Greek hero who tamed a ], hence its appropriateness as a name. The official name of the exoplanet is '''51 Peg b'''; the 'b' is used to indicate that it is the first companion of its parent star. Further companions would be designated c, d, and so on. It has been informally named 'Bellerophon', after ], the Greek hero who tamed a ] (winged horse), referring to the ] of ] in which the planet is located.


===The planet=== ===Characteristics===
After its discovery many teams confirmed its existence and obtained more observations of its properties, including the fact it orbits very close to the star, suffers temperatures around 1000 ], and is about half the mass of ]. At the time this close distance was not compatible with theory and resulted in discussions of ]. After its discovery, many teams confirmed the planet's existence and obtained more observations of its properties. It was discovered that the planet orbits very close to the star, much closer than ] to our Sun, suffering temperatures around 1000 degrees ], and is about half the mass of ]. At the time, the presence of a huge world so close to its star was not compatible with theories of ] and was considered an anomaly. However, since then, numerous other 'hot Jupiters' have been discovered (see ] and ], for example), and astronomers are revising their theories of planet formation to account for them by studying ].

It was initially assumed that Bellerophon is a ], but it is now known to be a ]. It is sufficiently massive that its thick atmosphere is not blown away by the star's ].

Bellerephon probably has a greater ] than Jupiter despite its lower mass. This is because its superheated atmosphere must be puffed up into a thick but tenuous layer surrounding it. Beneath this, the gases that make up the planet would be so hot that the planet would glow red. Clouds of ] may exist in the atmosphere.

The planet is ] to its star, always presenting the same face to it.


The planet orbits the star ] in the ].
* Sidereal Period 4.23 days * Sidereal Period 4.23 days
* Mean Distance 0.05 AU (7 million km) * Mean Distance 0.05 AU (7 million km)
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This discovery of this first exoplanet established a milestone in astronomical research, as it forced astronomers to realize that giant planets could exist in short period orbits. Once astronomers realized that it was worth looking for giant planets with the currently avaliable technology, much more telescope time was devoted to radial velocity planet searches, and hence many more exoplanets in the Sun's neighbourhood have been discovered. This discovery of this first exoplanet established a milestone in astronomical research, as it forced astronomers to realize that giant planets could exist in short period orbits. Once astronomers realized that it was worth looking for giant planets with the currently avaliable technology, much more telescope time was devoted to radial velocity planet searches, and hence many more exoplanets in the Sun's neighbourhood have been discovered.


==Other resources== ==See also==

===See also===
* ] * ]
* ] * ]
* ], the first star discovered with exoplanets. * ], the first star discovered with exoplanets.


===External links=== ==External links==
* *
*
* *
* *
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] ]
]

] ]
] ]

Revision as of 21:20, 28 November 2004

Bellerophon is the first planet discovered around a sun-like star outside of the solar system. It is the prototypical hot Jupiter. It orbits the star 51 Pegasi in the Pegasus constellation.

The name

The official name of the exoplanet is 51 Peg b; the 'b' is used to indicate that it is the first companion of its parent star. Further companions would be designated c, d, and so on. It has been informally named 'Bellerophon', after Bellerophon, the Greek hero who tamed a Pegasus (winged horse), referring to the constellation of Pegasus in which the planet is located.

Characteristics

After its discovery, many teams confirmed the planet's existence and obtained more observations of its properties. It was discovered that the planet orbits very close to the star, much closer than Mercury to our Sun, suffering temperatures around 1000 degrees Celsius, and is about half the mass of Jupiter. At the time, the presence of a huge world so close to its star was not compatible with theories of planet formation and was considered an anomaly. However, since then, numerous other 'hot Jupiters' have been discovered (see 55 Cancri and Tau Bootes, for example), and astronomers are revising their theories of planet formation to account for them by studying orbitral migration.

It was initially assumed that Bellerophon is a terrestrial planet, but it is now known to be a gas giant. It is sufficiently massive that its thick atmosphere is not blown away by the star's solar wind.

Bellerephon probably has a greater radius than Jupiter despite its lower mass. This is because its superheated atmosphere must be puffed up into a thick but tenuous layer surrounding it. Beneath this, the gases that make up the planet would be so hot that the planet would glow red. Clouds of silicates may exist in the atmosphere.

The planet is tidally locked to its star, always presenting the same face to it.

  • Sidereal Period 4.23 days
  • Mean Distance 0.05 AU (7 million km)
  • Mass 0.47 of Jupiter
  • distance from Earth 50 light years

Discovery process

The exoplanet's discovery was announced on October 6 1995 by Michael Mayor and Didier Queloz in Nature, volume 378, page 355, using the radial velocity method at the Observatoire de Genève.

After the announcement, on October 12, 1995, confirmation came from Dr. Geoffrey Marcy from San Francisco State University and Dr. Paul Butler from the University of California, Berkeley using the Hamilton Spectrograph at the Lick Observatory near San Jose in California.

Discovery method

The planet was discovered using a sensitive spectroscope that could detect the slight, regular velocity changes in the star's spectral lines of around 70 metres per second. These changes are caused by the planet's gravitational effects from just 7 million kilometres distance from the star.

This discovery of this first exoplanet established a milestone in astronomical research, as it forced astronomers to realize that giant planets could exist in short period orbits. Once astronomers realized that it was worth looking for giant planets with the currently avaliable technology, much more telescope time was devoted to radial velocity planet searches, and hence many more exoplanets in the Sun's neighbourhood have been discovered.

See also

External links

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