Brightness of Solar Magnetic Elements as a Function of Magnetic Flux at High Spatial Resolution

TL;DR

This study examines how the brightness of small-scale magnetic elements in the quiet Sun varies with magnetic flux at high spatial resolution, revealing a logarithmic relationship and resolving previous discrepancies in contrast behavior.

Contribution

It introduces a high-resolution analysis showing a logarithmic model better describes brightness versus magnetic flux, resolving prior power-law assumptions and clarifying contrast behavior.

Findings

Brightness contrast depends logarithmically on magnetic flux.

Contrast remains constant or increases with magnetic flux at all wavelengths.

High spatial resolution resolves small magnetic elements, eliminating contrast turnover seen in earlier studies.

Abstract

We investigate the relationship between the photospheric magnetic field of small-scale magnetic elements in the quiet Sun (QS) at disc centre, and the brightness at 214 nm, 300 nm, 313 nm, 388 nm, 397 nm, and at 525.02 nm. To this end we analysed spectropolarimetric and imaging time series acquired simultaneously by the IMaX magnetograph and the SuFI filter imager on-board the balloon-borne observatory Sunrise during its first science flight in 2009, with high spatial and temporal resolution. We find a clear dependence of the contrast in the near ultraviolet (NUV) and the visible on the line-of-sight component of the magnetic field, $B_{\rm LOS}$, which is best described by a logarithmic model. This function represents well the relationship between the Ca II H-line emission and $B_{\rm LOS}$, and works better than a power-law fit adopted by previous studies. This, along with the high contrast reached at these wavelengths, will help with determining the contribution of small-scale elements in the QS to the irradiance changes for wavelengths below 388 nm. At all wavelengths including the continuum at 525.40 nm the intensity contrast does not decrease with increasing $B_{\rm LOS}$. This result also strongly supports that Sunrise has resolved small strong magnetic field elements in the internetwork, resulting in constant contrasts for large magnetic fields in our continuum contrast at 525.40 nm vs. $B_{\rm LOS}$ scatterplot, unlike the turnover obtained in previous observational studies. This turnover is due to the intermixing of the bright magnetic features with the dark intergranular lanes surrounding them.