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Theoretical physicists working at a blackboard collaboration pod in the Beecroft building.
Credit: Jack Hobhouse

Caroline Terquem

Professor of Physics

Research theme

  • Astronomy and astrophysics
  • Exoplanets and planetary physics
  • Plasma physics

Sub department

  • Rudolf Peierls Centre for Theoretical Physics

Research groups

  • Exoplanets and Stellar Physics
  • Geophysical and Astrophysical Fluid Dynamics
  • Planet formation and dynamics
  • Theoretical astrophysics and plasma physics at RPC
Caroline.Terquem@physics.ox.ac.uk
Telephone: 01865 (2)73983
Rudolf Peierls Centre for Theoretical Physics, room 50.11
  • About
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  • Publications

Theory of Turbulent Accretion Disks

ArXiv astro-ph/0107408 (2001)

Abstract:

In low-mass disks, turbulent torques are probably the most important way of redistributing angular momentum. Here we present the theory of turbulent accretion disks. We show the molecular viscosity is far too small to account for the evolutionary timescale of disks, and we describe how turbulence may result in enhanced transport of (angular) momentum. We then turn to the magnetorotational instability, which thus far is the only mechanism that has been shown to initiate and sustain turbulence in disks. Finally, we present both the basis and the structure of alpha disk models.
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Theory of Turbulent Accretion Disks

(2001)
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Linear analysis of the Hall effect in protostellar disks

ASTROPHYSICAL JOURNAL 552:1 (2001) 235-247

Authors:

SA Balbus, C Terquem
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Tidally–Induced Angular Momentum Transport in Disks

Symposium - International Astronomical Union Cambridge University Press (CUP) 200 (2001) 406-409
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Dynamical Relaxation and Massive Extrasolar Planets

(2000)

Authors:

JCB Papaloizou, Caroline Terquem
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