Difference between revisions of "107 Piscis"

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''(Boilerplate from [http://www.solstation.com/ SolStation.com])''
 
''(Boilerplate from [http://www.solstation.com/ SolStation.com])''
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{{interstellar}}
 
{{interstellar}}

Latest revision as of 01:06, 19 May 2016

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This page is a Wikipedia or SolStation data dump with little or no relation – or, worse yet, with contradictions – to the situation in Fenspace.

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Places in Fenspace
107 Piscium
107 Piscis.jpg
Stellar characteristics
ConstellationPisces
Right ascension (Epoch J2000)01h 42m 29.76s
Declination (Epoch J2000)+20° 16' 06.62"
Spectral typeK1 V
Distance from Sol24.4 ± 0.2 ly
Other designations107 Psc, HR 493, Gl 68, Hip 7981, HD 10476, BD+19 279, SAO 74883, LHS 1287, LTT 10596, LFT 153.
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107 Piscium is a orange-red main sequence dwarf star of spectral and luminosity type K1 V. The star has about 89 percent of Sol's mass, 80 to 86 percent of its diameter (Perrin and Karoji, 1987, page 236; and Johnson and Wright, 1983, page 649), and about 37 percent of its luminosity . It appears to be about 63 percent as enriched as Sol with elements heavier than hydrogen ("metallicity"), based on its abundance of iron (Cayrel de Strobel et al, 1991, page 278). 107 Piscium has the New Suspected Variable designation NSV 600 and possibly two optical companions.

The failure, thus far, to find large substellar objects like brown dwarfs or a Jupiter- or Saturn-class planet in a "torch" orbit (closer han the Mercury to Sun distance) around 107 Piscium -- with even the highly sensitive radial-velocity technique of Geoffrey W. Marcy and R. Paul Butler -- bodes well for the possibility of Earth-type terrestrial planets around this star (Cumming et al, 1999). Indeed, the distance from 107 Piscium where an Earth-type planet would be "comfortable" with liquid water is centered around only 0.62 AU -- between the orbital distances of Mercury and Venus in the Solar System. At that distance from the star, such a planet would have an orbital period of about 202 days -- less than two thirds of an Earth year.

(Boilerplate from SolStation.com)