FORWARD: A Toolset for Multiwavelength Coronal Magnetometry

Sarah E. Gibson; Therese A. Kucera; Stephen M. White; James B. Dove; Yuhong Fan; Blake C. Forland; Laurel A. Rachmeler; Cooper Downs; Katharine K. Reeves

doi:10.3389/fspas.2016.00008

FORWARD: A Toolset for Multiwavelength Coronal Magnetometry

Sarah E. Gibson
, Therese A. Kucera
, Stephen M. White
, James B. Dove
, Yuhong Fan
, Blake C. Forland
, Laurel A. Rachmeler
, Cooper Downs
, Katharine K. Reeves

HAO Administrative Office

National Center for Atmospheric Research
NASA Goddard Space Flight Center
Air Force Research Laboratory
Metropolitan State University of Denver
Indiana University Bloomington
Royal Observatory of Belgium
NASA Marshall Space Flight Center
Predictive Science Inc
Center for Astrophysics | Harvard & Smithsonian

Research output: Contribution to journal › Article › peer-review

100 Scopus citations

Abstract

Determining the 3D coronal magnetic field is a critical, but extremely difficult problem to solve. Since different types of multiwavelength coronal data probe different aspects of the coronal magnetic field, ideally these data should be used together to validate and constrain specifications of that field. Such a task requires the ability to create observable quantities at a range of wavelengths from a distribution of magnetic field and associated plasma—i.e., to perform forward calculations. In this paper we describe the capabilities of the FORWARD SolarSoft IDL package, a uniquely comprehensive toolset for coronal magnetometry. FORWARD is a community resource that may be used both to synthesize a broad range of coronal observables, and to access and compare synthetic observables to existing data. It enables forward fitting of specific observations, and helps to build intuition into how the physical properties of coronal magnetic structures translate to observable properties. FORWARD can also be used to generate synthetic test beds from MHD simulations in order to facilitate the development of coronal magnetometric inversion methods, and to prepare for the analysis of future large solar telescope data.

Original language	English
Article number	8
Journal	Frontiers in Astronomy and Space Sciences
Volume	3
DOIs	https://doi.org/10.3389/fspas.2016.00008
State	Published - Mar 15 2016

Keywords

sun: EUV
sun: corona
sun: infrared
sun: magnetic fields
sun: radio
sun: x-rays

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10.3389/fspas.2016.00008

Cite this

@article{c382f38f688f4a0087416e5130088090,

title = "FORWARD: A Toolset for Multiwavelength Coronal Magnetometry",

abstract = "Determining the 3D coronal magnetic field is a critical, but extremely difficult problem to solve. Since different types of multiwavelength coronal data probe different aspects of the coronal magnetic field, ideally these data should be used together to validate and constrain specifications of that field. Such a task requires the ability to create observable quantities at a range of wavelengths from a distribution of magnetic field and associated plasma—i.e., to perform forward calculations. In this paper we describe the capabilities of the FORWARD SolarSoft IDL package, a uniquely comprehensive toolset for coronal magnetometry. FORWARD is a community resource that may be used both to synthesize a broad range of coronal observables, and to access and compare synthetic observables to existing data. It enables forward fitting of specific observations, and helps to build intuition into how the physical properties of coronal magnetic structures translate to observable properties. FORWARD can also be used to generate synthetic test beds from MHD simulations in order to facilitate the development of coronal magnetometric inversion methods, and to prepare for the analysis of future large solar telescope data.",

keywords = "sun: EUV, sun: corona, sun: infrared, sun: magnetic fields, sun: radio, sun: x-rays",

author = "Gibson, \{Sarah E.\} and Kucera, \{Therese A.\} and White, \{Stephen M.\} and Dove, \{James B.\} and Yuhong Fan and Forland, \{Blake C.\} and Rachmeler, \{Laurel A.\} and Cooper Downs and Reeves, \{Katharine K.\}",

note = "Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2016 Gibson, Kucera, White, Dove, Fan, Forland, Rachmeler, Downs and Reeves.",

year = "2016",

month = mar,

day = "15",

doi = "10.3389/fspas.2016.00008",

language = "English",

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journal = "Frontiers in Astronomy and Space Sciences",

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T2 - A Toolset for Multiwavelength Coronal Magnetometry

AU - Gibson, Sarah E.

AU - Kucera, Therese A.

AU - White, Stephen M.

AU - Dove, James B.

AU - Fan, Yuhong

AU - Forland, Blake C.

AU - Rachmeler, Laurel A.

AU - Downs, Cooper

AU - Reeves, Katharine K.

PY - 2016/3/15

Y1 - 2016/3/15

N2 - Determining the 3D coronal magnetic field is a critical, but extremely difficult problem to solve. Since different types of multiwavelength coronal data probe different aspects of the coronal magnetic field, ideally these data should be used together to validate and constrain specifications of that field. Such a task requires the ability to create observable quantities at a range of wavelengths from a distribution of magnetic field and associated plasma—i.e., to perform forward calculations. In this paper we describe the capabilities of the FORWARD SolarSoft IDL package, a uniquely comprehensive toolset for coronal magnetometry. FORWARD is a community resource that may be used both to synthesize a broad range of coronal observables, and to access and compare synthetic observables to existing data. It enables forward fitting of specific observations, and helps to build intuition into how the physical properties of coronal magnetic structures translate to observable properties. FORWARD can also be used to generate synthetic test beds from MHD simulations in order to facilitate the development of coronal magnetometric inversion methods, and to prepare for the analysis of future large solar telescope data.

AB - Determining the 3D coronal magnetic field is a critical, but extremely difficult problem to solve. Since different types of multiwavelength coronal data probe different aspects of the coronal magnetic field, ideally these data should be used together to validate and constrain specifications of that field. Such a task requires the ability to create observable quantities at a range of wavelengths from a distribution of magnetic field and associated plasma—i.e., to perform forward calculations. In this paper we describe the capabilities of the FORWARD SolarSoft IDL package, a uniquely comprehensive toolset for coronal magnetometry. FORWARD is a community resource that may be used both to synthesize a broad range of coronal observables, and to access and compare synthetic observables to existing data. It enables forward fitting of specific observations, and helps to build intuition into how the physical properties of coronal magnetic structures translate to observable properties. FORWARD can also be used to generate synthetic test beds from MHD simulations in order to facilitate the development of coronal magnetometric inversion methods, and to prepare for the analysis of future large solar telescope data.

KW - sun: EUV

KW - sun: corona

KW - sun: infrared

KW - sun: magnetic fields

KW - sun: radio

KW - sun: x-rays

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DO - 10.3389/fspas.2016.00008

M3 - Article

AN - SCOPUS:85016833095

SN - 2296-987X

VL - 3

JO - Frontiers in Astronomy and Space Sciences

JF - Frontiers in Astronomy and Space Sciences

M1 - 8

ER -

FORWARD: A Toolset for Multiwavelength Coronal Magnetometry

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Keywords

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