Valentin-Aslanyan/UFiT: UFiT v1.0: UFiT - Universal Fieldline Tracer Trace magnetic field lines in a range of magnetic geometries.

Valentin Aslanyan; Karen Meyer

doi:10.5281/zenodo.10301324

Valentin-Aslanyan/UFiT: UFiT v1.0: UFiT - Universal Fieldline Tracer Trace magnetic field lines in a range of magnetic geometries.

Valentin Aslanyan (Creator)
, Karen Meyer (Supervisor)

Mathematics

Research output: Non-textual form › Software

Abstract

Release of UFiT. Currently calculates field line trajectories, mapping and squashing factor. Code outputs currently supported: DUMFRIC, Lare3d, ARMS.
This package is intended to trace magnetic field lines and calculate the squashing factor Q. It is intended to read the outputs from a number of astrophysical codes, currently: ARMS, Lare3d and DUMFRIC; it saves the the results in a self-contained manner.

Original language	English
Publisher	Zenodo
Media of output	Online
Size	1.6 MB
DOIs	https://doi.org/10.5281/zenodo.10301324
Publication status	Published - 8 Dec 2023

Keywords

Heliosphere
Solar wind
Solar Probes
Spacecraft Orbits
Space Weather
Coronal Holes
Magnetohydrodynamics
Corona

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Access to Document

10.5281/zenodo.10301324Licence: CC BY

Solar Magnetic Evolution and Complexity: Dundee-Durham consortium (Joint with lead institute Durham University)
Meyer, K. (Investigator)
Science and Technology Facilities Council
1/04/22 → 31/12/25
Project: Research

Cite this

@misc{4e22ed284ce047a9804e9b92550afac6,

title = "Valentin-Aslanyan/UFiT: UFiT v1.0: UFiT - Universal Fieldline Tracer Trace magnetic field lines in a range of magnetic geometries. ",

abstract = "Release of UFiT. Currently calculates field line trajectories, mapping and squashing factor. Code outputs currently supported: DUMFRIC, Lare3d, ARMS. This package is intended to trace magnetic field lines and calculate the squashing factor Q. It is intended to read the outputs from a number of astrophysical codes, currently: ARMS, Lare3d and DUMFRIC; it saves the the results in a self-contained manner.",

keywords = "Heliosphere, Solar wind, Solar Probes, Spacecraft Orbits, Space Weather, Coronal Holes, Magnetohydrodynamics, Corona",

author = "Valentin Aslanyan and Karen Meyer",

year = "2023",

month = dec,

day = "8",

doi = "10.5281/zenodo.10301324",

language = "English",

publisher = "Zenodo",

address = "Switzerland",

}

Valentin-Aslanyan/UFiT: UFiT v1.0: UFiT - Universal Fieldline Tracer Trace magnetic field lines in a range of magnetic geometries. . Aslanyan, Valentin (Creator); Meyer, Karen (Supervisor). 2023. Zenodo.

Research output: Non-textual form › Software

TY - ADVS

T1 - Valentin-Aslanyan/UFiT: UFiT v1.0

T2 - UFiT - Universal Fieldline Tracer Trace magnetic field lines in a range of magnetic geometries.

A2 - Aslanyan, Valentin

A2 - Meyer, Karen

PY - 2023/12/8

Y1 - 2023/12/8

N2 - Release of UFiT. Currently calculates field line trajectories, mapping and squashing factor. Code outputs currently supported: DUMFRIC, Lare3d, ARMS. This package is intended to trace magnetic field lines and calculate the squashing factor Q. It is intended to read the outputs from a number of astrophysical codes, currently: ARMS, Lare3d and DUMFRIC; it saves the the results in a self-contained manner.

AB - Release of UFiT. Currently calculates field line trajectories, mapping and squashing factor. Code outputs currently supported: DUMFRIC, Lare3d, ARMS. This package is intended to trace magnetic field lines and calculate the squashing factor Q. It is intended to read the outputs from a number of astrophysical codes, currently: ARMS, Lare3d and DUMFRIC; it saves the the results in a self-contained manner.

KW - Heliosphere

KW - Solar wind

KW - Solar Probes

KW - Spacecraft Orbits

KW - Space Weather

KW - Coronal Holes

KW - Magnetohydrodynamics

KW - Corona

U2 - 10.5281/zenodo.10301324

DO - 10.5281/zenodo.10301324

M3 - Software

PB - Zenodo

ER -

Valentin-Aslanyan/UFiT: UFiT v1.0: UFiT - Universal Fieldline Tracer Trace magnetic field lines in a range of magnetic geometries.

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Fingerprint

Projects

Solar Magnetic Evolution and Complexity: Dundee-Durham consortium (Joint with lead institute Durham University)

Cite this