
Accession Number : ADA184352
Title : ThreeHalves Law in Sunspot Cycle Shape,
Corporate Author : STANFORD UNIV CA CENTER FOR SPACE SCIENCE AND ASTROPHYSICS
Personal Author(s) : Bracewell, R N
PDF Url : ADA184352
Report Date : Jul 1987
Pagination or Media Count : 15
Abstract : Annual mean sunspot numbers R(t) since 1700 show evidence of a nonlinear effect, first evidenced by the detection of third harmonic in R (+ or +) (t), the alternating representation of the magnetic (22 year) cycle of solar activity. The form of the nonlinearity proves to be a threehalves law R(t) = 3/2 power of (100 LR sub lin (t)/83, where L R sub lin (t), also an alternating quantity, is a presumed underlying or linearized sunspot number. The nonlinearity is of such a nature as to cause strong semicycles to be sharper than sinusoidal and to produce the inflexion in R (+ or )(t) noted at sunspot minimum. A search for a physical explanation of a threehalves law reveals that just such a law results because large sunspot groups, such as occur around strong sunspot maxima, enter into the sunspot number, as conventionally defined, over more days than small groups, simply because large groups last longer. Semicycle asymmetry, which cannot result from a simple nonlinear law, is here ascribed to magnetic buoyancy acting preferentially on the antinodal layers of a traveling wave. Profiles for semicycles of different strengths have been constructed on the assumption that the underlying influence is sinusoidal. Each sinusoid is distorted by the threehalves law, and then made unsymmetrical by applying a buoyancy theory for magnetized plasma rising against viscous drag. The majority of past semicycles, including those of the underlying influence that is sinusoidal, and the hypothesis that sunspots result from an upward traveling wave from a submerged 22year oscillator.
Descriptors : *SOLAR CYCLE, SUNSPOTS, OSCILLATION, BUOYANCY, ASYMMETRY, MAGNETIC FIELDS, SOLAR ACTIVITY
Subject Categories : Astrophysics
Distribution Statement : APPROVED FOR PUBLIC RELEASE