Mesogranulation and the solar surface magnetic field distribution

TL;DR

This study uses high-resolution solar data to show that magnetic elements are predominantly located along mesogranular lanes, supporting the idea that mesogranulation is not a primary convective scale but still influences magnetic field distribution.

Contribution

The paper provides quantitative evidence linking magnetic element distribution to mesogranular lanes and analyzes magnetic field line connectivity independent of horizontal flows.

Findings

85% of magnetic pixels are near mesogranular lanes

Magnetic flux concentrates in mesogranular lanes

Distribution of magnetic field line footpoints shows exponential decay

Abstract

The relation of the solar surface magnetic field with mesogranular cells is studied using high spatial (~ 100 km) and temporal (~ 30 sec) resolution data obtained with the IMaX instrument aboard SUNRISE. First, mesogranular cells are identified using Lagrange tracers (corks) based on horizontal velocity fields obtained through Local Correlation Tracking. After ~ 20 min of integration, the tracers delineate a sharp mesogranular network with lanes of width below about 280 km. The preferential location of magnetic elements in mesogranular cells is tested quantitatively. Roughly 85% of pixels with magnetic field higher than 100 G are located in the near neighborhood of mesogranular lanes. Magnetic flux is therefore concentrated in mesogranular lanes rather than intergranular ones. Secondly, magnetic field extrapolations are performed to obtain field lines anchored in the observed flux elements. This analysis, therefore, is independent of the horizontal flows determined in the first part. A probability density function (PDF) is calculated for the distribution of distances between the footpoints of individual magnetic field lines. The PDF has an exponential shape at scales between 1 and 10 Mm, with a constant characteristic decay distance, indicating the absence of preferred convection scales in the mesogranular range. Our results support the view that mesogranulation is not an intrinsic convective scale (in the sense that it is not a primary energy-injection scale of solar convection), but also give quantitative confirmation that, nevertheless, the magnetic elements are preferentially found along mesogranular lanes.