Upsilon Andromedae e

Upsilon Andromedae e
Parent star
Exoplanet		List of exoplanets
Star		Upsilon Andromedae A
Constellation		Andromeda
Right ascension	(α)	01^h 36^m 47.8^s
Declination	(δ)	+41° 24′ 20″
Apparent magnitude	(m_V)	4.09
Distance		44.0 ± 0.1 ly (13.49 ± 0.03 pc)
Spectral type		F8V
Mass	(m)	1.28 M_☉
Radius	(r)	1.480 ± 0.087 R_☉
Temperature	(T)	6074 ± 13.1 K
Metallicity	[Fe/H]	0
Age		3.3 Gyr
Orbital elements
Semi-major axis	(a)	5.2456 ± 0.00067^[1] AU (784.7 Gm)
Periastron	(q)	5.2175 ± 0.003 AU (780.5 Gm)
Apastron	(Q)	5.2738 ± 0.0029 AU (788.9 Gm)
Eccentricity	(e)	0.0055±0.0004^[2]
Orbital period	(P)	3848.86±0.74^[2] d (~10.53946^[2] y)
Argument of periastron	(ω)	367.3 ± 2.3^[1]°
Physical characteristics
Mass	(m)	0.96±0.14^[2] M_J
Discovery information
Discovery date		November 22, 2010 (announced) December 2, 2010 (published)
Discoverer(s)		Curiel et al.
Discovery method		Doppler spectroscopy
Discovery site		Baja California
Discovery status		Published^[1]
Other designations
50 Andromedae e, Upsilon Andromedae Ae
Database references
Extrasolar Planets Encyclopaedia		data
SIMBAD		data
Exoplanet Archive		data
Open Exoplanet Catalogue		data

Upsilon Andromedae e is the outermost extrasolar planet orbiting the star Upsilon Andromedae A in the constellation of Andromeda. This planet is one of the most Jupiter-like exoplanets found in terms of mass and semi-major axis.

Discovery

This planet was discovered on November 22, 2010, but the discovery paper was not released until December 2.^[1] It was the fourth time in 2010 that a fourth planet has been discovered in a planetary system, the others being Gliese 876 e, HD 10180 e, and HR 8799 e; in no other year so far during the exoplanet era has more than one fourth planet been discovered.

Astronomers originally thought that this planet could not exist because it would have made the planetary system unstable and would have been ejected.^[3] But in 2007, an island region of stability was reported where a fourth planet could exist.^[4]

Characteristics

Upsilon Andromedae e is a so-called “Jupiter-twin” because it has a mass slightly greater than Jupiter's and orbits at a similar distance as Jupiter from the Sun, at precisely 5.2456 AU compared to 5.2043 AU for Jupiter. Although only the minimum mass is determined since inclination is not yet known, its true mass might be much greater. It takes over a decade to orbit the star. At an eccentricity of 0.00536, the planet's orbit is more circular than that of any of the planets in our solar system.^[1]

References

1 2 3 4 5 Curiel, S.; et al. (2011). "A fourth planet orbiting υ Andromedae". Astronomy & Astrophysics 525: A78. Bibcode:2011A&A...525A..78C. doi:10.1051/0004-6361/201015693.
1 2 3 4 Ligi, R.; et al. (2012). "A new interferometric study of four exoplanet host stars : θ Cygni, 14 Andromedae, υ Andromedae and 42 Draconis". Astronomy & Astrophysics 545: A5. arXiv:1208.3895. Bibcode:2012A&A...545A...5L. doi:10.1051/0004-6361/201219467.
↑ Ford, Eric B.; et al. (2005). "Planet-planet scattering in the upsilon Andromedae system". Nature 434 (7035): 873–876. arXiv:astro-ph/0502441. Bibcode:2005Natur.434..873F. doi:10.1038/nature03427. PMID 15829958.
↑ Rory Barnes; Richard Greenberg (2008). "Extrasolar Planet Interactions". arXiv:0801.3226v1 [astro-ph].

The Upsilon Andromedae system



Upsilon Andromedae A Upsilon Andromedae B

Upsilon Andromedae b Upsilon Andromedae c Upsilon Andromedae d Upsilon Andromedae e

See also: binary stars extrasolar planets

← Celestial objects within 40–45 light-years →

Primary member type	Celestial objects by systems. Secondary members are listed in small print.

Giant stars

G-type	Capella (42.2±0.5 ly) GIII giant Ab 2 red dwarfs: C D

Subgiant stars

F-type	Beta Trianguli Australis (40.2±0.3 ly) star B Theta Ursae Majoris «Alhaud» (44.0±0.4 ly) K-type main-sequence star Ab red dwarf B

G-type	Beta Aquilae «Alshain» (44.7±0.5 ly) red dwarf B

K-type	HD 104304 (42.1±0.4 ly) Gamma Cephei «Errai» (45.0±0.3 ly) red dwarf B planet b

Main-sequence
stars

F-type	36 Ursae Majoris (41.9±0.4 ly) K-type main-sequence star B star C Upsilon Andromedae (43.9±0.4 ly) red dwarf B 4 planets: b c d e 10 Tauri (44.8±0.5 ly) star B Iota Piscium (45.0±0.5 ly)

G-type	Rho¹ (55) Cancri (40.9±0.4 ly) red dwarf B 5 planets: e b c f d HR 483 (41.2±0.4 ly) red dwarf B Lambda Aurigae «Al Hurr» (41.2±0.5 ly) star B HR 683 (41.4±0.4 ly) i (44) Boötis (41.6±0.3 ly) 2 G-type main-sequence stars: B C HD 147513 (42.0±0.5 ly) white dwarf B planet b HR 6998 (42.4±0.5 ly) 58 Eridani (43.4±0.5 ly) HR 8501 (44.4±0.4 ly) red dwarf B

K-type	Gliese 435 (40.8±0.5 ly) HD 69830 (41.0±0.4 ly) 3 planets: b c d Gliese 142 (41.2±1.2 ly) Gliese 349 (41.4±0.6 ly) HD 158633 (41.7±0.3 ly) HD 40307 (41.8±0.3 ly) 6 planets: b c d e f g Gliese 428 (42.0±1.0 ly) red dwarf B HD 166348 (42.3±0.7 ly) Gliese 204 (42.3±0.5 ly) Gliese 167 (42.7±0.3 ly) HD 190007 (42.8±0.6 ly) SZ Crateris (42.9±1.0 ly) red dwarf B HD 170657 (43.1±0.5 ly) Gliese 146 (43.6±0.5 ly) GJ 1267 (43.6±0.8 ly) Gliese 556 (43.8±0.4 ly) Gliese 69 (43.8±0.7 ly) HD 29697 (44.0±0.8 ly) Gliese 868 (44.2±0.7 ly) Gliese 528 (44.4±0.7 ly) K-type main-sequence star B HD 154577 (44.6±0.6 ly) HD 166 (44.7±0.5 ly) red dwarf B Gliese 615 (44.8±0.5 ly)

M-type (red dwarfs)	Gliese 179 (40.1+2.1 −1.9 ly) planet b Gliese 806 (40.2±0.9 ly) GJ 4360 (40.8±0.7 ly) red dwarf B HD 175224 (41.2±1.6 ly) red dwarf B Innes' star (41.3 ly) planet b GJ 3707 (41.9±1.3 ly) Gliese 521 (42.4±0.9 ly) Gliese 215 (44.7±0.7 ly)

Degenerate
stars

White dwarfs	GRW +70 8247 (42.4+1.3 −1.2 ly) G 29-38 (44.4+2.6 −2.3 ly)

Brown dwarfs

T-type

WISE J0457-0207 (40.8±10.1 ly)
WISE 1051-2138 (~40.8 ly)
ULAS J0034-00 (41.0+2.1
−1.9 ly)
WISE 1542+2230 (~41.1 ly)
WISE 0857+5604 (~42.1 ly)
WISE 2019-1148 (~42.4 ly)
WISE 2134-7137 (~42.7 ly)
WISE 2359-7335 (~42.7 ly)
WISE 1311+0122 (~44.4 ly)
WISE 1952+7240 (~44.4 ly)
WISE 0513+0608 (~44.7 ly)
WISE 2255-3118 (~44.7 ly)
WISE 2226+0440 (~45.0 ly)

Italic are systems without known trigonometric parallax.

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