Tau BoÃ¶tis Ab

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Tau BoÃ¶tis Ab

Tau Boötis b, occasionally catalogued as Tau Boötis Ab, is an extrasolar planet

Extrasolar planet

An extrasolar planet, or exoplanet, is a planet beyond the Solar System, orbiting a star other than the Sun. As of February 2009, 342 exoplanets are listed in the Extrasolar Planets Encyclopaedia....
approximately 50 light-year

Light-year

A light-year or light year is a Units of measurement of length, equal to just under ten orders_of_magnitude_%28numbers%29#1012 kilometres....
s away around the primary star of the Tau Boötis system

Tau Boötis

Tau Bo?tis is a yellow-white dwarf approximately 51 light-years away in the constellation of Bo?tes. The system is also a binary star system, with the secondary star being a red dwarf....
in the constellation

Constellation

A constellation is a group of stars that appear to have a physical proximity in the sky. The stars in a constellation are often vastly distant from each other, but they appear close to each other from the perspective of Earth....
of Boötes

Boötes

Bo?tes Bo?tes was one of the 48 constellations described by the 1st century astronomer Ptolemy and is now one of the 88 modern constellations. It contains the List of brightest stars in the night sky, Arcturus....
. Announced in 1996 by Geoffrey Marcy

Geoffrey Marcy

Geoffrey W. Marcy is famous for discovering more extrasolar planets than anyone else, 70 out of the first 100 to be discovered, along with R. Paul Butler and Debra Fischer....
and R. Paul Butler

R. Paul Butler

Paul Butler is an astronomer who searches for extrasolar planets. He and collaborator Geoffrey Marcy were the first to discover extrasolar planets orbiting around a sun-like star....
, Tau Boötis

Tau Boötis

Planet

A planet , as 2006 definition of planet by the International Astronomical Union , is a celestial body orbiting a star or Stellar evolution#Stellar remnants that is massive enough to be rounded by its own gravity, is not massive enough to cause thermonuclear fusion, and has cleared the neighbourhood of planetesimals....
was dubbed the "Millennium Planet" because the planet was then (erroneously) thought to be the first extrasolar planet

Extrasolar planet

Discussion

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Encyclopedia

Tau Boötis b, occasionally catalogued as Tau Boötis Ab, is an extrasolar planet

Extrasolar planet

Light-year

Tau Boötis

Constellation

Boötes

Geoffrey Marcy

Geoffrey W. Marcy is famous for discovering more extrasolar planets than anyone else, 70 out of the first 100 to be discovered, along with R. Paul Butler and Debra Fischer....
and R. Paul Butler

R. Paul Butler

Tau Boötis

Planet

Extrasolar planet

Discovery

Discovered in 1996, the planet is one of the first extrasolar planets found. It was discovered by Paul Butler

R. Paul Butler

Geoffrey Marcy

Geoffrey W. Marcy is famous for discovering more extrasolar planets than anyone else, 70 out of the first 100 to be discovered, along with R. Paul Butler and Debra Fischer....
(San Francisco Planet Search Project) using the highly successful radial velocity

Radial velocity

Radial velocity is the velocity of an object in the direction of the line of sight . The light of an object with a substantial radial velocity will be subject to Doppler effect, so the frequency of the light decreases for receding objects and increases for approaching objects ....
method. Since the star is visually bright and the planet is massive, it produces a very strong velocity signal of 469

Orders of magnitude (speed)

To help compare different orders of magnitude, the following list describes various speed levels between 1.3 metre per second and 3 m/s....
± 5 metres per second, which was quickly confirmed by Michel Mayor and Didier Queloz

Didier Queloz

Didier Queloz is a Geneva Observatory-based astronomer with a prolific record in finding extrasolar planets. He is understudy to Michel Mayor....
from data collected over 15 years. It was later confirmed also by the AFOE Planet Search Team.

Orbit and mass

Tau Boötis b is rather massive, with a minimum mass

Minimum mass

The term minimum mass refers to the detected objects with a lower-bound calculated mass. The example of minimum mass is for extrasolar planets, because most extrasolar planets were detected by the radial velocity method, which detects planets by detecting changes in toward or away movement of stars in the line-of-sight, in which real inclinat...
over four times that of Jupiter. It orbits the star in a so-called "torch orbit", at a distance from the star less than one seventh that of Mercury

Mercury (planet)

Mercury is the innermost and smallest planet in the Solar System, orbiting the Sun once every 88 days. The orbit of Mercury has the highest Orbital eccentricity of all the Solar System planets, and it has the smallest axial tilt....
's from the Sun

Sun

The Sun , a G V star, is the star at the center of the Solar System. The Earth and other matter orbit the Sun, which by itself accounts for about 98.6% of the Solar System's mass....
. One orbital revolution takes only 3 days 7.5 hours to complete. Because t Boo is hotter and larger than the Sun and the planet's orbit is so low, it is assumed to be hot. Assuming the planet is perfectly grey with no greenhouse or tidal effects, and a Bond albedo of 0.1, the temperature would be close to 1600 K

Kelvin

The kelvin is a Units of measurement of temperature and is one of the seven SI base units. The Kelvin scale is a Thermodynamic temperature scale where absolute zero, the theoretical absence of all thermal energy, is zero ....
. Although it has not been detected directly, it is certain that the planet is a gas giant

Gas giant

A gas giant is a large planet that is not primarily composed of Rock or other solid matter. There are four gas giants in our Solar System: Jupiter, Saturn, Uranus, and Neptune....
.

As Tau Boötis b is more massive than most known "hot Jupiter

Hot Jupiter

Hot Jupiters are a class of extrasolar planet whose mass is close to or exceeds that of Jupiter , but unlike in the Solar System, where Jupiter orbits at 5 Astronomical Unit, the planets referred to as hot Jupiters orbit within approximately 0.05 AU of their parent stars, about one eighth the distance that Mercury orbits the Sun....
s", it was speculated that it was originally a brown dwarf

Brown dwarf

Brown dwarfs are sub-star objects with a mass below that necessary to maintain hydrogen-burning nuclear fusion reactions in their cores, as do stars on the main sequence, but which have fully convective surfaces and interiors, with no chemical differentiation by depth....
, a failed star, which could have lost most of its atmosphere from the heat of its larger companion star. However, this seems very unlikely. Still, such a process has actually been detected on the famous transiting planet HD 209458 b

HD 209458 b

HD 209458 b, also unofficially named Osiris, is an extrasolar planet that orbits the Solar twin HD 209458 in the constellation Pegasus , some 150 light-years from Earth's solar system, with evidence of water vapor....
.

In December 1999, a group led by A. C. Cameron had announced that they had detected reflected light from the planet. They calculated that the orbit of the planet has an inclination

Inclination

Inclination in general is the angle between a reference plane and another plane or Axis_of_rotation of direction. The axial tilt is expressed as the angle made by the planet's axis and a line drawn through the planet's center perpendicular to the orbital plane....
of 29° and thus the absolute mass of the planet would be about 8.5 times that of Jupiter. They also suggested that the planet is blue in color. Unfortunately, their observations could not be confirmed and were later proved to be spurious. A better estimate came from the assumption of tidal lock with the star, which rotates at 40 degrees; fixing the planet's mass between 6 and 7 Jupiter masses. This inclination has been confirmed by magnetic field detection.

Characteristics

The temperature of Tau Boötis b is probably inflates its radius higher (1.2 times) than Jupiter's. Since no reflected light has been detected, the planet's albedo

Albedo

The albedo of an object is the extent to which it diffusely reflects light from the Sun. It is therefore a more specific form of the term reflectivity....
must be less than 0.37. At 1600 K, it is (like HD 179949 b

HD 179949 b

HD 179949 b is an extrasolar planet discovered by the Anglo-Australian Planet Search at the Anglo-Australian Observatory, which orbits the star HD 179949....
) supposed to be hotter than HD 209458 b

HD 209458 b

HD 149026 b

HD 149026 b is an extrasolar planet approximately 257 light-years away in the constellation of Hercules . The planet was discovered after it transit its parent star, HD 149026....
(predicted 1540 K from higher albedo 0.3, then actually measured at 2300 K). Tau Boötis b's predicted Sudarsky class

Appearance of extrasolar planets

The appearance of extrasolar planets is largely unknown because of the difficulty in making direct observations of extrasolar planets. In addition, analogies with planets in our solar system can apply for few of the extrasolar planets known; because most are wholly unlike any of our planets, for example the hot Jupiters....
is V; which is supposed to yield a highly reflective albedo of .55.

It is a candidate for "near-infrared characterisation.... with the VLTI Spectro-Imager".

There are also some indications of another, more distant planet orbiting Tau Boötis A

Tau Boötis

Tau BoÃ¶tis Ab

Discovery

Orbit and mass

Characteristics

See also

External links