Solar core rotation

Bibcode
1982Natur.299..704C
DOI
10.1038/299704a0
Claverie, A.; Isaak, G. R.; McLeod, C. P.; van der Raay, H. B.; Palle, P. L.; Roca-Cortés, T.
Bibliographical reference

Nature, vol. 299, Oct. 21, 1982, p. 704-707. Research supported by the Science and Engineering Research Council.

Advertised on:
10
1982
Journal
Nature
Number of authors
6
IAC number of authors
2
Citations
40
Refereed citations
36
Description
Data from solar line of sight velocity measurements are presented to demonstrate the existence of a synodic signal with a 6.5 m/sec amplitude. Recordings of alternate measurements of the resonantly scattered light intensity were made at 1 sec intervals and a mean ratio for the laboratory and solar lines was calculated over a 42 sec interval, yielding 900 points each day of observation. An oscillation which was in phase at both observation points was found. A peak was found at 0.88 micro-Hz, with a 13.15 day period. The 6.6 m/sec velocity amplitude of the peak was calculated to indicate a mean surface displacement of 1,000,000 m. The magnitude of the Doppler shift is taken as evidence that a core moving at a greater speed than the surface of the sun is responsible for the observed signal. It is further suggested that the core is moving twice as fast as the surface.
Type
Refereed
Solar oscillations
Solar rotation
Line of sight
Radial velocity

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