Photospheric Magnetic Field: Relationship Between North-South Asymmetry and Flux Imbalance

TL;DR

This study analyzes the north-south asymmetry and flux imbalance of photospheric magnetic fields over multiple solar cycles, revealing their relation to the Sun's magnetic cycle phases and polar magnetic fields.

Contribution

It provides new insights into the relationship between magnetic flux asymmetries, sunspot polarity, and the solar magnetic cycle phases based on long-term observational data.

Findings

North-south asymmetry alternates with solar cycle phases.

Flux imbalance sign correlates with the Sun's polar magnetic field.

Magnetic field asymmetries relate to the 22-year magnetic cycle phase.

Abstract

Photospheric magnetic fields were studied using the Kitt Peak synoptic maps for 1976-2003. Only strong magnetic fields (B>100 G) of the equatorial region were taken into account. The north-south asymmetry of the magnetic fluxes was considered as well as the imbalance between positive and negative fluxes. The north-south asymmetry displays a regular alternation of the dominant hemisphere during the solar cycle: the northern hemisphere dominated in the ascending phase, the southern one in the descending phase during Solar Cycles 21-23. The sign of the imbalance did not change during the 11 years from one polar-field reversal to the next and always coincided with the sign of the Sun's polar magnetic field in the northern hemisphere. The dominant sign of leading sunspots in one of the hemispheres determines the sign of the magnetic-flux imbalance. The sign of the north-south asymmetry of the magnetic fluxes and the sign of the imbalance of the positive and the negative fluxes are related to the quarter of the 22-year magnetic cycle where the magnetic configuration of the Sun remains constant (from the minimum where the sunspot sign changes according to Hale's law to the magnetic-field reversal and from the reversal to the minimum). The sign of the north-south asymmetry for the time interval considered was determined by the phase of the 11-year cycle (before or after the reversal); the sign of the imbalance of the positive and the negative fluxes depends on both the phase of the 11-year cycle and on the parity of the solar cycle. The results obtained demonstrate the connection of the magnetic fields in active regions with the Sun's polar magnetic field in the northern hemisphere.