51 Pegasi b

Name

51 Pegasi is the Flamsteed designation of the host star. The planet was originally designated 51 Pegasi b by Michel Mayor and Didier Queloz, who discovered the planet in 1995. The following year it was unofficially dubbed "Bellerophon" by astronomer Geoffrey Marcy, who followed the convention of naming planets after Greek and Roman mythological figures (Bellerophon is a figure from Greek mythology who rode the winged horse Pegasus).

In July 2014, the International Astronomical Union launched NameExoWorlds, a process for giving proper names to certain exoplanets and their host stars. The process involved public nomination and voting for the new names. In December 2015, the IAU announced the winning name for this planet was Dimidium. The name was submitted by the de, Switzerland. 'Dimidium' is Latin for 'half', referring to the planet's mass of approximately half the mass of Jupiter.

Discovery

The exoplanet's discovery was announced on October 6, 1995, by Michel Mayor and Didier Queloz of the University of Geneva in the journal Nature. They used the radial velocity method with the ELODIE spectrograph on the Observatoire de Haute-Provence telescope in France and made world headlines with their announcement. For this discovery, they were awarded the 2019 Nobel Prize in Physics.

The planet was discovered using a sensitive spectroscope that could detect the slight and 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.

Within a week of the announcement, the planet was confirmed by another team using the Lick Observatory in California.

Physical 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 the star in around four days. It is much closer to it than Mercury is to the Sun, moves at an orbital speed of 136 km/s, yet has a minimum mass about half that of Jupiter (about 150 times that of the Earth). 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 (such as those orbiting 55 Cancri and τ Boötis), and astronomers are revising their theories of planet formation to account for them by studying orbital migration.

Assuming the planet is perfectly grey with no greenhouse or tidal effects, and a Bond albedo of 0.1, the temperature would be 1265 K. This is between the predicted temperatures of HD 189733 b and HD 209458 b (1180 K–1392 K), before they were measured.

In the report of the discovery, it was initially speculated that 51 Pegasi b was the stripped core of a brown dwarf of a decomposed star and was therefore composed of heavy elements, but it is now believed to be a gas giant. It is sufficiently massive that its thick atmosphere is not blown away by the star's solar wind.

51 Pegasi b probably has a greater radius than that of 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.

The planet (with Upsilon Andromedae b) was deemed a candidate for aperture polarimetry by Planetpol. It is also a candidate for "near-infrared characterisation.... with the VLTI Spectro-Imager".

Claims of direct detection of visible light

A 2015 study alleged the detection of 51 Pegasi b in the visible light spectrum using the High Accuracy Radial velocity Planet Searcher (HARPS) instrument at the European Southern Observatory's La Silla Observatory in Chile. This detection, if confirmed, would allow the inference of a true mass of 0.46 Jupiter masses. The findings also could suggest a high albedo for the planet, hence a large radius up to Jupiter radii, which could suggest 51 Pegasi b is an inflated hot Jupiter. The optical detection could not be replicated in 2020, implying the planet has an albedo below 0.15. Measurements in 2021 have marginally detected a polarized reflected light signal, which, while they cannot place limits on the albedo without assumptions made about the scattering mechanisms, could suggest a high albedo.

More recent studies found no evidence of reflected light, ruling out the previous radii and albedo estimates from previous studies. Instead, 51 Pegasi b is likely a low-albedo planet with a radius around .

In popular culture

• In season 2 of the 2020 Animaniacs reboot, Pegasi 51b, alongside Kepler 186f & the fictional WB-1, is referenced in the song "Yakko's Big Idea".

References

References

1. (2013-04-01). "Detection of Molecular Absorption in the Dayside of Exoplanet 51 Pegasi b?". The Astrophysical Journal.
2. Derived from the equation for density using the mass and radius of the planet.
3. Derived from [[Newton's law of universal gravitation]] which uses the mass and radius of the planet.
4. Derived from the equation for [[Escape velocity]], which uses the mass and radius of the planet.
5. (2014). "How the Universe Works 3". [[Discovery Channel]].
6. (10 October 2019). "Lessons from scorching hot weirdo-planets". Annual Reviews.
7. Nowakowski, Tomasz. (February 1, 2017). "Water detected in the atmosphere of hot Jupiter exoplanet 51 Pegasi b".
8. Sanders, Robert. (January 17, 1996). "01.17.96 - Discovery of two new planets -- the second and third within the last three months -- proves they aren't rare in our galaxy". [[University of California, Berkeley]].
9. (9 July 2014). "NameExoWorlds: An IAU Worldwide Contest to Name Exoplanets and their Host Stars".
10. "NameExoWorlds The Process".
11. (15 December 2015). "Final Results of NameExoWorlds Public Vote Released".
12. "NameExoWorlds The Approved Names".
13. (1995). "A Jupiter-mass companion to a solar-type star". [[Nature (journal).
14. "The Nobel Prize in Physics 2019". [[Nobel Media AB]].
15. (1995). "51 Pegasi". [[IAU Circular]].
16. (2008). "Prospects for near-infrared characterisation of hot Jupiters with the VLTI Spectro-Imager (VSI)".
17. (2007). "Planetpol polarimetry of the exoplanet systems 55 Cnc and tau Boo". [[Monthly Notices of the Royal Astronomical Society]].
18. Commissariat, Tushna. (22 April 2015). "First visible light detected directly from an exoplanet".
19. (2015). "Evidence for a spectroscopic direct detection of reflected light from 51 Pegasi b". Astronomy & Astrophysics.
20. (2020). "The GAPS Programme at TNG. XXIX. No detection of reflected light from 51 Peg b using optical high-resolution spectroscopy". Astronomy & Astrophysics.
21. (2021). "Polarization of hot Jupiter systems: A likely detection of stellar activity and a possible detection of planetary polarization". Monthly Notices of the Royal Astronomical Society.
22. (2022-03-01). "Black Mirror: The impact of rotational broadening on the search for reflected light from 51 Pegasi b with high resolution spectroscopy". Astronomy & Astrophysics.
23. (2021-02-01). "The GAPS Programme at TNG - XXIX. No detection of reflected light from 51 Peg b using optical high-resolution spectroscopy". Astronomy & Astrophysics.