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相关论文: Type I Migration in a Non-Isothermal Protoplanetar…

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As planets grow the exchange of angular momentum with the gaseous component of the protoplanetary disc produces a net torque resulting in a variation of the semi-major axis of the planet. For low-mass planets not able to open a gap in the…

地球与行星天体物理 · 物理学 2019-05-15 O. M. Guilera , N. Cuello , M. Montesinos , M. M. Miller Bertolami , M. P. Ronco , J. Cuadra , F. S. Masset

In isothermal disks the migration of protoplanets is directed inward. For small planetary masses the standard type-I migration rates are so fast that this may result in an unrealistic loss of planets into the stars. We investigate the…

天体物理学 · 物理学 2015-05-13 Wilhelm Kley , Aurelien Crida

We determine an expression for the Type I planet migration torque involving a locally isothermal disk, with moderate turbulent viscosity (~0.0005 < alpha < ~0.05), based on three-dimensional nonlinear hydrodynamical simulations. The radial…

地球与行星天体物理 · 物理学 2016-06-20 Gennaro D'Angelo , Stephen H. Lubow

Gravitational torques between a planet and gas in the protoplanetary disk result in orbital migration of the planet, and are likely to play an important role in the formation and early evolution of planetary systems. For masses comparable…

天体物理学 · 物理学 2007-05-23 Philip J. Armitage , W. K. M. Rice

A large planet orbiting a star in a protoplanetary disk opens a density gap along its orbit due to the strong disk-planet interaction and migrates with the gap in the disk. It is expected that in the ideal case, a gap-opening planet…

地球与行星天体物理 · 物理学 2018-07-25 Kazuhiro D. Kanagawa , Hidekazu Tanaka , Ewa Szuszkiewicz

Aims: We investigate the effect of including a proper energy balance on the interaction of a low-mass planet with a protoplanetary disk. Methods: We use a three-dimensional version of the RODEO method to perform hydrodynamical simulations…

天体物理学 · 物理学 2009-11-11 S. -J. Paardekooper , G. Mellema

As planets form they tidally interact with their natal disks. Though the tidal perturbation induced by Earth and super-Earth mass planets is generally too weak to significantly modify the structure of the disk, the interaction is…

地球与行星天体物理 · 物理学 2015-06-05 Katherine A. Kretke , D. N. C. Lin

We present detailed estimates of ''type-I'' migration rates for low-mass proto-planets embedded in steady-state T-Tauri alpha-disks, based on Lindblad torque calculations ignoring feedback on the disk. Differences in migration rates for…

天体物理学 · 物理学 2009-11-10 Kristen Menou , Jeremy Goodman

Low-mass objects embedded in isothermal protoplanetary discs are known to suffer rapid inward Type I migration. In non-isothermal discs, recent work has shown that a decreasing radial profile of the disc entropy can lead to a strong…

地球与行星天体物理 · 物理学 2015-06-11 A. Pierens , C. Baruteau , F. Hersant

Previous models of the combined growth and migration of protoplanets needed large ad hoc reduction factors for the type I migration rate as found in the isothermal approximation. In order to eliminate these factors, a simple semi-analytical…

地球与行星天体物理 · 物理学 2015-05-27 C. Mordasini , K. -M. Dittkrist , Y. Alibert , H. Klahr , W. Benz , T. Henning

Context. The origin of giant planets at moderate separations $\simeq$$1$$-$$10$ au is still not fully understood because numerical studies of Type II migration in protoplanetary disks often predict a decay of the semi-major axis that is too…

地球与行星天体物理 · 物理学 2020-10-28 Ondřej Chrenko , David Nesvorný

We study the interaction of a low-mass planet with a protoplanetary disk with a realistic treatment of the energy balance by doing radiation-hydrodynamical simulations. We look at accretion and migration rates and compare them to isothermal…

天体物理学 · 物理学 2009-11-13 S. -J. Paardekooper , G. Mellema

We perform three-dimensional self-gravitating radiative transfer simulations of protoplanet migration in circumstellar discs to explore the impact upon migration of the radial temperature profiles in these discs. We model protoplanets with…

地球与行星天体物理 · 物理学 2015-05-27 Ben A. Ayliffe , Matthew R. Bate

Low-mass planets that are in the process of growing larger within protoplanetary disks exchange torques with the disk and change their semi-major axis accordingly. This process is called type I migration and is strongly dependent on the…

地球与行星天体物理 · 物理学 2025-07-16 Thomas Saupe , Bertram Bitsch

This paper examines how type I planet migration is affected by the presence of turbulent density fluctuations in the circumstellar disk. For type I migration, the planet does not clear a gap in the disk and its secular motion is driven by…

天体物理学 · 物理学 2009-11-10 Gregory Laughlin , Adriane Steinacker , Fred Adams

Low-mass planets are known to undergo Type I migration and this process must have played a key role during the evolution of planetary systems. Analytical formulae for the disc torque have been derived assuming that the planet evolves on a…

地球与行星天体物理 · 物理学 2015-10-21 Arnaud Pierens

The migration of growing protoplanets depends on the thermodynamics of the ambient disc. Standard modelling, using locally isothermal discs, indicate in the low planet mass regime an inward (type-I) migration. Taking into account…

地球与行星天体物理 · 物理学 2015-05-13 Willy Kley , Bertram Bitsch , Hubert Klahr

We study the effects of a large-scale, ordered magnetic field in protoplanetary disks on Type I planet migration using a combination of numerical simulations in 2D and 3D and a linear perturbation analysis. Steady-state models of such disks…

地球与行星天体物理 · 物理学 2015-06-23 Ana Uribe , Alissa Bans , Arieh Königl

Planets less massive than Saturn tend to rapidly migrate inward in protoplanetary disks. This is the so-called type I migration. Simulations attempting to reproduce the observed properties of exoplanets show that type I migration needs to…

地球与行星天体物理 · 物理学 2015-11-18 Masahiro Ogihara , Alessandro Morbidelli , Tristan Guillot

This paper presents a generalized treatment of Type I planetary migration in the presence of stochastic perturbations. In many planet-forming disks, the Type I migration mechanism, driven by asymmetric torques, acts on a short time scale…

地球与行星天体物理 · 物理学 2011-02-11 Fred C. Adams , Anthony M. Bloch
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