Theoretical astrophysics and plasma physics at RPC

MHD turbulence in an accretion disk

AIAA 25th Plasmadynamics and Lasers Conference, 1994 (1994)

Authors:

JF Hawley, SA Balbus

Abstract:

A long-standing problem in the theory of astrophysical accretion disks has been to determine the nature of the stress that transports orbital angular momentum outward. The recent discovery of a local MHD instability provides strong evidence that transport is through turbulent Maxwell and Reynolds stresses. Using numerical simulations we have demonstrated that a weak seed magnetic field in an accretion disk is unstable and leads to sustained MHD turbulence at dynamically important levels. The accretion disk provides a natural laboratory for the study of MHD turbulence.

Local shear instabilities in weakly ionized, weakly magnetized disks

The Astrophysical Journal American Astronomical Society 421 (1994) 163

Authors:

Omer M Blaes, Steven A Balbus

BAR-INDUCED GAS VELOCITIES IN THE BULGE OF M31

ASTROPHYSICAL JOURNAL 426:1 (1994) L31-L33

Authors:

AA STARK, J BINNEY

CONSTRUCTION OF INVARIANT TORI AND INTEGRABLE HAMILTONIANS

PHYSICAL REVIEW LETTERS 73:18 (1994) 2377-2381

Authors:

M KAASALAINEN, J BINNEY

DYNAMICAL ANALYSIS OF LOCAL KINEMATICAL DATA

(1994) 141-149