Physics
Scientific paper
Jan 1981
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1981soph...69...39r&link_type=abstract
Solar Physics, Volume 69, Issue 1, pp.39-56
Physics
131
Scientific paper
Magnetic fields may introduce structure (inhomogeneity) into an otherwise uniform medium and thus change the nature of wave propagation in that medium. As an example of such structuring, wave propagation in an isolated magnetic slab is considered. It is supposed that disturbances outside the slab are laterally non-propagating. The effect of gravity is ignored.
The field can support the propagation of both body and surface waves. The existence and nature of these waves depends upon the relative magnitudes of the sound speed c0 and Alfvén speed υA inside the slab, and the sound speed ce in the field-free environment.
In general terms the slow mode can always propagate, and does so both as a surface wave and as a body wave. On the other hand, the fast mode may propagate only in slabs that are not hotter than their surroundings (ce ≥ c0), and then it is a body wave or a surface wave accordingly as ce is greater than or less than υA. For example, if ce > c0 > υA then a fast body wave propagates with phase-speed between ce and c0, a slow body wave between υA and cT = c0 υA/(c02 + υA2)1/2, and a slow surface wave with phase-speed below c T. There are no modes between c0 and υA. As a second illustration, if υA > ce > c0, then in addition to the slow body and slow surface waves, as before, there is a fast surface wave with phase-speed between c0 and ce. There is no fast body wave.
The special case of a slender field is also investigated and it is shown how the slender flux tube approximation relates to the more general results described above. In particular, the tube wave with phase-speed cT studied by Defouw (1976) and Roberts and Webb (1978) is shown to be a slow surface wave (sausage mode). Finally, we discuss briefly the generation of resonant modes in a slender slab.
No associations
LandOfFree
Wave Propagation in a Magnetically Structured Atmosphere - Part Two - Waves in a Magnetic Slab does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.
If you have personal experience with Wave Propagation in a Magnetically Structured Atmosphere - Part Two - Waves in a Magnetic Slab, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Wave Propagation in a Magnetically Structured Atmosphere - Part Two - Waves in a Magnetic Slab will most certainly appreciate the feedback.
Profile ID: LFWR-SCP-O-1054255