A multiple flux-tube solar wind model

TL;DR

The paper introduces MULTI-VP, a fast, 3D solar wind model that simulates the structure from the chromosphere to the low heliosphere, capturing the influence of magnetic flux-tube geometry on wind properties.

Contribution

MULTI-VP is a novel, efficient model that computes solar wind profiles along flux-tubes, improving speed and accuracy over existing global MHD models.

Findings

Supports the role of flux-tube geometry in wind speed distribution.

Reproduces the inverse density-speed relationship in the solar wind.

Operates in near real-time with accurate dynamical and thermal predictions.

Abstract

We present a new model, MULTI-VP, that computes the three-dimensional structure of the solar wind which includes the chromosphere, the transition region, and the corona and low heliosphere. MULTI-VP calculates a large ensemble of wind profiles flowing along open magnetic field-lines which sample the whole three-dimensional atmosphere or, alternatively, on a given region of interest. The radial domain starts from the photosphere and extends, typically, to about 30 $R_{sun}$ . The elementary uni-dimensional wind solutions are based on a mature numerical scheme which was adapted in order to accept any flux-tube geometry. We discuss here the first results obtained with this model. We use Potential Field Source-Surface (PFSS) extrapolations of magnetograms from the Wilcox Solar Observatory (WSO) to determine the structure of the background magnetic field. Our results support the hypothesis that the geometry of the magnetic flux-tubes in the lower corona controls the distribution of slow and fast wind flows. The inverse correlation between density and speed faraway from the Sun is a global effect resulting from small readjustments of the flux-tube cross-sections in the high corona (necessary to achieve global pressure balance and a uniform open flux distribution). In comparison to current global MHD models, MULTI-VP performs much faster and does not suffer from spurious cross-field diffusion effects. We show that MULTI-VP has the capability to predict correctly the dynamical and thermal properties of the background solar wind (wind speed, density, temperature, magnetic field amplitude and other derived quantities) and to approach real-time operation requirements.