English

The PDFI_SS Electric Field Inversion Software

Solar and Stellar Astrophysics 2020-04-28 v4

Abstract

We describe the PDFI_SS software library, which is designed to find the electric field at the Sun's photosphere from a sequence of vector magnetogram and Doppler velocity measurements, and estimates of horizontal velocities obtained from local correlation tracking using the recently upgraded FLCT code. The library, a collection of Fortran subroutines, uses the "PDFI" technique described by Kazachenko et al. (2014), but modified for use in spherical, Plate-Carr\'ee geometry on a staggered grid. The domain over which solutions are found is a subset of the global spherical surface, defined by user-specified limits of colatitude and longitude. Our staggered-grid approach, based on that of Yee (1966), is more conservative and self-consistent compared to the centered, Cartesian grid used by Kazachenko et al. (2014). The library can be used to compute an end-to-end solution for electric fields from data taken by the HMI instrument aboard NASA's SDO Mission. This capability has been incorporated into the HMI pipeline processing system operating at SDO's JSOC. The library is written in a general and modular way so that the calculations can be customized to modify or delete electric field contributions, or used with other data sets. Other applications include "nudging" numerical models of the solar atmosphere to facilitate assimilative simulations. The library includes an ability to compute "global" (whole-Sun) electric field solutions. The library also includes an ability to compute Potential Magnetic Field solutions in spherical coordinates. This distribution includes a number of test programs which allow the user to test the software.

Keywords

Cite

@article{arxiv.1912.08301,
  title  = {The PDFI_SS Electric Field Inversion Software},
  author = {George H. Fisher and Maria D. Kazachenko and Brian T. Welsch and Xudong Sun and Erkka Lumme and David J. Bercik and Marc L. DeRosa and Mark C. M. Cheung},
  journal= {arXiv preprint arXiv:1912.08301},
  year   = {2020}
}

Comments

68 pages, 28 figures, 3 tables. This version (arXiv) will be updated when major changes to the software occur

R2 v1 2026-06-23T12:49:05.741Z