- Coreless planet
-
A coreless planet is a theoretical type of terrestrial planet that has undergone planetary differentiation but nevertheless has no metallic core, i.e. the planet is effectively a giant rocky mantle.
Contents
Origin
According to a 2008 paper by Sara Seager and Linda Elkins-Tanton,[1] there are probably two ways in which a coreless planet may form.
In the first, the planet accretes from chondrite-like fully oxidized water-rich material, where all the metallic iron is bound into silicate mineral crystals. Such planets may form in cooler regions farther from the central star.
In the second, the planet accretes from both water-rich and iron metal-rich material. However, the metal iron reacts with water to form iron oxide and release hydrogen before differentiation of a metal core has taken place. Provided the iron droplets are well mixed and small enough (<1 centimeter), the predicted end result is that the iron is oxidized and trapped in the mantle, unable to form a core.
Characteristics
A fully silicate coreless planet will not have a molten core and therefore no magnetic field. The predicted sizes of coreless and cored planets are similar within a few per cent, which makes it difficult to interpret the interior composition of exoplanets based on measured planetary masses and radii.
See also
References
- ^ Seager, S.; L.Elkins-Tanton (2008). "Coreless Terrestrial Exoplanets". ApJ 688: 628–635. arXiv:0808.1908. Bibcode 2008ApJ...688..628E. doi:10.1086/592316.
Exoplanets Classes - Carbon planet
- Coreless planet
- Desert planet
- Iron planet
- Ocean planet
- Super-Earth
- Chthonian planet
- Carbon giant
- Eccentric Jupiter
- Helium planet
- Hot Jupiter
- Hot Neptune
- Jovian planet
- Puffy planet
Other typesSystems - Binary star
- Extragalactic planet
- Extrasolar moon
- Hypothetical extrasolar planet
- Planetary system
- Rogue planet
- Trojan planet
Lists Detection- Extrasolar planets detected by radial velocity
- Transiting extrasolar planets
- Extrasolar planets detected by microlensing
- Extrasolar planets directly imaged
- Extrasolar planets detected by timing
- Unconfirmed exoplanets
Planets and host stars- Stars with extrasolar planets
- Planetary systems
- Extrasolar planet extremes
- Extrasolar planet firsts
- List of nearest terrestrial exoplanets
Surveys Exoplanets search projects Ground-based - AAPS
- California and Carnegie Planet Search
- HAT
- HARPS, part of the Geneva Extrasolar Planet Search
- MEarth Project
- MOA
- OGLE
- Magellan Planet Search Program
- SuperWASP
- TrES
- XO Telescope
- EAPSNet
- High Resolution Echelle Spectrometer (HIRES)
- MARVELS
- MUSCA
- Microlensing Follow-Up Network (MicroFUN)
- NASA-UC Eta-Earth
- PHASES
- PlanetPol
- PARAS
- Subaru telescope, using the High-Contrast Coronographic Imager for Adaptive Optics (HiCIAO)
- Systemic, an amateur search project
- ZIMPOL/CHEOPS, based at the VLT
Space missions CurrentPlanned- PEGASE (est. 2010-2012)
- TESS (est. 2013-2014)
- PLATO (est. 2017)
- New Worlds (est. 2020)
- EChO (est. 2022)
Other status- See also:
- List of extrasolar planets
- Discoveries of extrasolar planets
- Unconfirmed exoplanets
- Detection methods
See also: Discoveries of extrasolar planets Categories:- Hypothetical planet types
- Exoplanetology
Wikimedia Foundation. 2010.
