Physics
Scientific paper
Jul 1986
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1986soph..106..107s&link_type=abstract
Solar Physics (ISSN 0038-0938), vol. 106, July 1986, p. 107-130.
Physics
23
Extreme Ultraviolet Radiation, Magnetic Flux, Noise Storms, Radio Spectra, Solar Corona, Vertical Distribution, Spectroheliographs
Scientific paper
Detailed comparisons of Culgoora 160 MHz radioheliograms of solar noise storms and Skylab EUV spectroheliograms of coronal loop structures are presented. It is concluded that: (1) there is a close association between changes in large-scale magnetic fields in the corona and the onset or cessation of noise storms; (2) these coronal changes result from the emergence of new magnetic flux at the photospheric level; (3) although new magnetic flux at the photospheric level is often accompanied by an increase in flare activity the latter is not directly responsible for noise storm activity; rather the new magnetic flux diffuses slowly outward through the corona at rates ≡1 - 2 km s-1 and produces noise storms at 160 MHz 1 - 2 days later; (4) the coronal density above or in large-scale EUV loop systems is sufficiently dense to account for noise storm emission at the fundamental plasma frequency; (5) the scatter in noise storm positions can be accounted for by the appearance and disappearance of individual loops in a system.
Brueckner Guenter E.
Dere Ken P.
Stewart Ron T.
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