Magnetic dynamo activity in mechanically driven compressible magnetohydrodynamic turbulenceMagnetic dynamo activity in a homogeneous, dissipative, polytropic, two-dimensional, turbulent magneto-fluid is simulated numerically. The magneto-fluid is simulated numerically. The magneto-fluid is, in a number of cases, mechanically forced so that energy input balances dissipation, thereby maintaining constant energy. In the presence of a mean magnetic field, a magneto-fluid whose initial turbulent magnetic energy is zero quickly arrives at a state of non-zero turbulent magnetic energy. If the mean magnetic field energy density is small, the turbulent magnetic field can achieve a local energy density more than four hundred times larger; if the mean magnetic field energy density is large, then equipartition between the turbulent magnetic and kinetic energy is achieved. Compared to the presence of a mean magnetic field, compressibility appears to have only a marginal effect in mediating the transfer of turbulent kinetic energy into magnetic energy.
Document ID
19890054762
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Shebalin, John V. (NASA Langley Research Center Hampton, VA, United States)
Montgomery, David (Dartmouth College Hanover, NH, United States)