Extrasolar Carbon Planets
Abstract
We suggest that some extrasolar planets <~ 60 Earth masses will form substantially from silicon carbide and other carbon compounds. Pulsar planets and low-mass white dwarf planets are especially good candidate members of this new class of planets, but these objects could also conceivably form around stars like the Sun. This planet-formation pathway requires only a factor of two local enhancement of the protoplanetary disk's C/O ratio above solar, a condition that pileups of carbonaceous grains may create in ordinary protoplanetary disks. Hot, Neptune-mass carbon planets should show a significant paucity of water vapor in their spectra compared to hot planets with solar abundances. Cooler, less massive carbon planets may show hydrocarbon-rich spectra and tar-covered surfaces. The high sublimation temperatures of diamond, SiC, and other carbon compounds could protect these planets from carbon depletion at high temperatures.
Cite
@article{arxiv.astro-ph/0504214,
title = {Extrasolar Carbon Planets},
author = {Marc J. Kuchner and S. Seager},
journal= {arXiv preprint arXiv:astro-ph/0504214},
year = {2007}
}
Comments
17 pages, 2 figures, submitted to ApJ