Hydromagnetic Waves in Structured Magnetic Fields
Abstract
Although the inhomogeneous nature of solar magnetic fields is now well established, most theoretical analyses of hydromagnetic wave propagation assume infinite homogeneous fields. Here we reformulate the hydromagnetic wave problem for magnetic fields which vary in one direction perpendicular to the field. The permitted modes of small amplitude hydromagnetic oscillations are considered, first in the case of a single interface between semi-infinite magnetic and non-magnetic compressible regions, and secondly for a magnetic flux sheath of given thickness imbedded in a nonmagnetic region. It is shown that, for small values of R (the ratio of the Alfvén to the sound speed), an acoustic or p-mode wave front passes through the flux sheath with only minor deformation. However, for large R, the transmitted acoustic wave is attenuated and, depending upon the thickness of the flux sheath and the angle of incidence, a hydromagnetic wave may be effectively trapped and guided along the flux sheath.
- Publication:
-
Solar Physics
- Pub Date:
- April 1975
- DOI:
- 10.1007/BF00154069
- Bibcode:
- 1975SoPh...41..313C
- Keywords:
-
- Energy Transfer;
- Magnetic Effects;
- Magnetohydrodynamic Waves;
- Solar Atmosphere;
- Solar Magnetic Field;
- Astronomical Models;
- Dynamic Response;
- Magnetic Field Configurations;
- Solar Wind;
- Sunspots;
- Wave Propagation;
- Solar Physics;
- Acoustic Wave;
- Free Vibration;
- Sound Speed;
- Fast Mode;
- Slow Mode