Planet Formation and the Characterics of Extrasolar Planets

Jack J. Lissauer (NASA Ames Research Center)

Abstract:

An overview of current theories of planetary growth, emphasizing the formation of extrasolar planets, is presented. Models of planet formation are based upon observations of the Solar System, extrasolar planets, and young stars and their environments. Terrestrial planets are believed to grow via pairwise accretion until the spacing of planetary orbits becomes large enough that the configuration is stable for the age of the system. Giant planets begin their growth like terrestrial planets, but if they become massive enough before the protoplanetary disk dissipates, then they are able to accumulate substantial amounts of gas. These models predict that rocky planets should form in orbit about most single stars. It is uncertain whether or not gas giant planet formation is common, because most protoplanetary disks may dissipate before solid planetary cores can grow large enough to gravitationally trap substantial quantities of gas. A potential hazard to planetary systems is radial decay of planetary orbits resulting from interactions with material within the disk. Planets more massive than Earth have the potential to decay the fastest, and may be able to sweep up smaller planets in their path. The implications of the giant planets found in recent radial velocity searches for the abundances of habitable planets are discussed.

Realaudio of lecture.
Viewgraphs (4.2MB PDF)

Suggested Reading:

• Planet Formation
  Lissauer, J.J., 1993. Ann. Rev. Astron. Astrophys. 31, 129-174.

• How Common are Habitable Planets?
  Lissauer, J.J., 1999. Nature 402, C11-C14.

• Giant Planet Formation
  Wuchterl, G., T. Guillot and J.J. Lissauer, 2000. Protostars and Planets IV, V. Mannings, A.P. Boss and S.S. Russell, eds. (Tucson: University of Arizona Press), 1081-1109.