Survival of terrestrial planets in the presence of giant planet migration

Avi M. Mandell; Steinn Sigurdsson

doi:10.1086/381245

Survival of terrestrial planets in the presence of giant planet migration

Avi M. Mandell, Steinn Sigurdsson

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

The presence of "hot Jupiters", Jovian-mass planets with very short orbital periods orbiting nearby main-sequence stars, has been proposed to be primarily due to the orbital migration of planets formed in orbits initially much farther from the parent star. This migration affects the evolution of inner terrestrial planets in these systems. Previous analyses have assumed that no terrestrial planets survive after migration has occurred. We present numerical simulations showing that a significant fraction of terrestrial planets could survive the migration process and possibly return to near circular orbits relatively close to their original positions. A fraction of the final orbits are in the habitable zone, suggesting that planetary systems with close-in giant planets are viable targets for searches for Earth-like habitable planets around other stars.

Original language	English (US)
Pages (from-to)	L111-L114
Journal	Astrophysical Journal
Volume	599
Issue number	2 II
DOIs	https://doi.org/10.1086/381245
State	Published - Dec 20 2003

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.1086/381245

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title = "Survival of terrestrial planets in the presence of giant planet migration",

abstract = "The presence of {"}hot Jupiters{"}, Jovian-mass planets with very short orbital periods orbiting nearby main-sequence stars, has been proposed to be primarily due to the orbital migration of planets formed in orbits initially much farther from the parent star. This migration affects the evolution of inner terrestrial planets in these systems. Previous analyses have assumed that no terrestrial planets survive after migration has occurred. We present numerical simulations showing that a significant fraction of terrestrial planets could survive the migration process and possibly return to near circular orbits relatively close to their original positions. A fraction of the final orbits are in the habitable zone, suggesting that planetary systems with close-in giant planets are viable targets for searches for Earth-like habitable planets around other stars.",

author = "Mandell, {Avi M.} and Steinn Sigurdsson",

note = "Funding Information: Supported in part by PSARC, NSF grant PHYS 02-03046, and contributions from the Z. Daniel Scholarship. We thank the referee for constructive comments.",

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T1 - Survival of terrestrial planets in the presence of giant planet migration

AU - Mandell, Avi M.

AU - Sigurdsson, Steinn

N1 - Funding Information: Supported in part by PSARC, NSF grant PHYS 02-03046, and contributions from the Z. Daniel Scholarship. We thank the referee for constructive comments.

PY - 2003/12/20

Y1 - 2003/12/20

N2 - The presence of "hot Jupiters", Jovian-mass planets with very short orbital periods orbiting nearby main-sequence stars, has been proposed to be primarily due to the orbital migration of planets formed in orbits initially much farther from the parent star. This migration affects the evolution of inner terrestrial planets in these systems. Previous analyses have assumed that no terrestrial planets survive after migration has occurred. We present numerical simulations showing that a significant fraction of terrestrial planets could survive the migration process and possibly return to near circular orbits relatively close to their original positions. A fraction of the final orbits are in the habitable zone, suggesting that planetary systems with close-in giant planets are viable targets for searches for Earth-like habitable planets around other stars.

AB - The presence of "hot Jupiters", Jovian-mass planets with very short orbital periods orbiting nearby main-sequence stars, has been proposed to be primarily due to the orbital migration of planets formed in orbits initially much farther from the parent star. This migration affects the evolution of inner terrestrial planets in these systems. Previous analyses have assumed that no terrestrial planets survive after migration has occurred. We present numerical simulations showing that a significant fraction of terrestrial planets could survive the migration process and possibly return to near circular orbits relatively close to their original positions. A fraction of the final orbits are in the habitable zone, suggesting that planetary systems with close-in giant planets are viable targets for searches for Earth-like habitable planets around other stars.

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Survival of terrestrial planets in the presence of giant planet migration

Abstract

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