Astronomy and Astrophysics – Astronomy
Scientific paper
Sep 2000
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000arep...44..634c&link_type=abstract
Astronomy Reports, Volume 44, Issue 9, September 2000, pp.634-640
Astronomy and Astrophysics
Astronomy
Scientific paper
We present the amplitude and frequency fluctuations of radio signals detected simultaneously at ground stations at Evpatoriya and Ussuri sk during experiments in which radio signals with wavelengths of 5, 8, and 32 cm emitted from the Venera-15 and Venera-16 spacecraft were transmitted through the solar plasma environment. Relations are obtained between the rates of amplitude scintillations (determined from the width of temporal spectra) and frequency scintillations (determined from the delay of the fluctuations between the ground stations), on the one hand, and the velocities of the solar wind and of wave-like density disturbances and the anisotropy of irregularities, on the other hand. Analysis shows that the transition of the solar-wind flow to a supersonic regime takes place at heliocentric distances of 10 15 solar radii (R s ) and that the flow becomes supersonic at distances exceeding 15R s . Solar-wind density inhomogeneities with scales of about 50 km are radially extended. For heliocentric distances from 10 to 20R s , the degree of extension is modest and, as a rule, does not exceed a factor of two.
Bird Michael K.
Chashei Igor V.
Efimov Alexander I.
Rudash V. K.
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