R. Brajsa et al., Statistical weights and selective height corrections in the determination of the solar rotation velocity, SOLAR PHYS, 196(2), 2000, pp. 279-297
Observations of the Sun performed at 37 GHz with the 14-m radio telescope o
f the Metsahovi Radio Observatory were analyzed. Rotation velocities were d
etermined, tracing Low Temperature Regions (LTRs) in the years 1979-1980, 1
981-1982, 1987-1988, and 1989-1991. Statistical weights were ascribed to th
e determined rotation velocities of LTRs, according to the number of tracin
g days. Measured changes of the rotation velocity during the solar activity
cycle, as well as a north-south rotation asymmetry, are discussed. The res
ults obtained with and without the statistical weights procedure are compar
ed, and it was found that the statistical significance of the solar differe
ntial rotation parameters' changes is higher when the statistical weights p
rocedure is applied. A selective application of the height correction on LT
R's positions has not removed the cycle-related changes nor the north-south
asymmetry of the solar rotation measured tracing LTRs. So, projection effe
cts cannot explain these changes. The differential rotation of LTRs is more
rigid than the differential rotation obtained tracing magnetic features an
d measuring Doppler shifts, which can be explained by the association rate
of the LTRs' positions with rigidly rotating 'pivot points'. The observed c
ycle-related changes and the north-south asymmetry of the rotation velocity
of LTRs are consistent with the cycle-related changes and the north-south
asymmetry of the association rate between LTRs and pivot points.