Dead zones and the diversity of exoplanetary systems Journal Articles

abstract

• AbstractPlanetary migration provides a theoretical basis for the observed diversity of exoplanetary systems. We demonstrate that dust settling - an inescapable feature of disk evolution - gives even more rapid type I migration by up to a factor of about 2 than occurs in disks with fully mixed dust. On the other hand, type II migration becomes slower by a factor of 2 due to dust settling. This even more problematic type I migration can be resolved by the presence of a dead zone; the inner, high density region of a disk which features a low level of turbulence. We show that enhanced dust settling in the dead zone leaves a dusty wall at its outer edge. Back-heating of the dead zone by this wall produces a positive radial gradient for the disk temperature, which acts as a barrier for type I migration.

authors

• Hasegawa, Yasuhiro
• Pudritz, Ralph Egon

status

• published 

publication date

• October 2010

has subject area

• 0201 Astronomical and Space Sciences (FoR)

published in

• Proceedings of the International Astronomical Union  Journal

keywords

• Astronomy & Astrophysics
• DISKS
• MIGRATION
• Physical Sciences
• Science & Technology
• accretion
• accretion disks
• planetary systems: protoplanetary disks
• radiative transfer
• turbulence

Digital Object Identifier (DOI)

• 10.1017/s1743921311020667

start page

• 430

end page

• 431

volume

• 6

issue

• S276