Physics
Scientific paper
Jun 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999aipc..471..243v&link_type=abstract
The solar wind nine conference. AIP Conference Proceedings, Volume 471, pp. 243-246 (1999).
Physics
5
Particle Emission, Solar Wind
Scientific paper
In a previous work (1) we developed a semiempirical axisymmetric and magnetostatic model of the minimum activity corona, accounting for the gas pressure gradient effects on the magnetic structure. The model is able to reproduce the streamer belt closed region and the streamer surrounding open field lines, predicting high plasma β values (>1) in the closed region, low values in the surrounding open-field regions (streamer legs) and even lower values for the polar hole region. In this work we add to that model a solar wind solution under the assumption of mass and momentum flux conservation. For open field lines arising from the polar hole region we find a fast wind solution that reaches values of about 600 km/sec at 10 Rsolar. For open field lines arising from the surroundings of the closed region (streamer legs), the morphology of the field lines is fast diverging, we find that this results in the existence of two posible sonic points. The first sonic point, located below the streamer cusp, gives a relatively fast solar wind solution, reaching values of about 400 km/sec at 10 Rsolar. The second sonic point, located above the streamer cusp, gives a slow solution, reaching values of up to 200 km/sec for lines close to the streamer core, becoming supersonic only well above the streamer cusp.
Raymond John C.
van Ballegooijen Adriaan A.
Vasquez Alberto M.
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