Modeling the Effects of a Light Bridge on Properties of Magnetohydrodynamic Waves in Solar Pores

Luiz A.C.A. Schiavo; Mykola Gordovskyy; Philippa K. Browning; Suzana de Souza e Almeida Silva; Gary Verth; Istvan Ballai; Sergiy Shelyag; Sergey N. Ruzheinikov; James A. McLaughlin; Viktor Fedun

doi:10.3847/1538-4357/ad7958

Modeling the Effects of a Light Bridge on Properties of Magnetohydrodynamic Waves in Solar Pores

Luiz A.C.A. Schiavo, Mykola Gordovskyy, Philippa K. Browning, Suzana de Souza e Almeida Silva, Gary Verth, Istvan Ballai, Sergiy Shelyag, Sergey N. Ruzheinikov, James A. McLaughlin, Viktor Fedun

College of Science and Engineering

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Abstract

Solar pores are ideal magnetic structures for wave propagation and transport of energy radially outwards across the upper layers of the solar atmosphere. We aim to model the excitation and propagation of magnetohydrodynamic waves in a pore with a light bridge modeled as two interacting magnetic flux tubes separated by a thin, weaker-field layer. We solve the three-dimensional magnetohydrodynamic equations numerically and calculate the circulation as a measure of net torsional motion. We find that the interaction between flux tubes results in the natural excitation of propagating torsional Alfvén waves but find no torsional waves in the model with a single flux tube. The torsional Alfvén waves propagate with wave speeds matching the local Alfvén speed where wave amplitude peaks.

Original language	English
Article number	45
Number of pages	9
Journal	Astrophysical Journal
Volume	975
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/ad7958
Publication status	Published - 1 Nov 2024

Bibliographical note

Publisher Copyright:
© 2024. The Author(s). Published by the American Astronomical Society.

Keywords

solar pores
Magnetohydrodynamic waves
magnetic structures
wave propagation
transport of energy
light bridge
flux tubes

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10.3847/1538-4357/ad7958Licence: CC BY

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title = "Modeling the Effects of a Light Bridge on Properties of Magnetohydrodynamic Waves in Solar Pores",

abstract = "Solar pores are ideal magnetic structures for wave propagation and transport of energy radially outwards across the upper layers of the solar atmosphere. We aim to model the excitation and propagation of magnetohydrodynamic waves in a pore with a light bridge modeled as two interacting magnetic flux tubes separated by a thin, weaker-field layer. We solve the three-dimensional magnetohydrodynamic equations numerically and calculate the circulation as a measure of net torsional motion. We find that the interaction between flux tubes results in the natural excitation of propagating torsional Alfv{\'e}n waves but find no torsional waves in the model with a single flux tube. The torsional Alfv{\'e}n waves propagate with wave speeds matching the local Alfv{\'e}n speed where wave amplitude peaks.",

keywords = "solar pores, Magnetohydrodynamic waves, magnetic structures, wave propagation, transport of energy, light bridge, flux tubes",

author = "Schiavo, {Luiz A.C.A.} and Mykola Gordovskyy and Browning, {Philippa K.} and {de Souza e Almeida Silva}, Suzana and Gary Verth and Istvan Ballai and Sergiy Shelyag and Ruzheinikov, {Sergey N.} and McLaughlin, {James A.} and Viktor Fedun",

note = "Publisher Copyright: {\textcopyright} 2024. The Author(s). Published by the American Astronomical Society.",

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T1 - Modeling the Effects of a Light Bridge on Properties of Magnetohydrodynamic Waves in Solar Pores

AU - Schiavo, Luiz A.C.A.

AU - Gordovskyy, Mykola

AU - Browning, Philippa K.

AU - de Souza e Almeida Silva, Suzana

AU - Verth, Gary

AU - Ballai, Istvan

AU - Shelyag, Sergiy

AU - Ruzheinikov, Sergey N.

AU - McLaughlin, James A.

AU - Fedun, Viktor

PY - 2024/11/1

Y1 - 2024/11/1

N2 - Solar pores are ideal magnetic structures for wave propagation and transport of energy radially outwards across the upper layers of the solar atmosphere. We aim to model the excitation and propagation of magnetohydrodynamic waves in a pore with a light bridge modeled as two interacting magnetic flux tubes separated by a thin, weaker-field layer. We solve the three-dimensional magnetohydrodynamic equations numerically and calculate the circulation as a measure of net torsional motion. We find that the interaction between flux tubes results in the natural excitation of propagating torsional Alfvén waves but find no torsional waves in the model with a single flux tube. The torsional Alfvén waves propagate with wave speeds matching the local Alfvén speed where wave amplitude peaks.

AB - Solar pores are ideal magnetic structures for wave propagation and transport of energy radially outwards across the upper layers of the solar atmosphere. We aim to model the excitation and propagation of magnetohydrodynamic waves in a pore with a light bridge modeled as two interacting magnetic flux tubes separated by a thin, weaker-field layer. We solve the three-dimensional magnetohydrodynamic equations numerically and calculate the circulation as a measure of net torsional motion. We find that the interaction between flux tubes results in the natural excitation of propagating torsional Alfvén waves but find no torsional waves in the model with a single flux tube. The torsional Alfvén waves propagate with wave speeds matching the local Alfvén speed where wave amplitude peaks.

KW - solar pores

KW - Magnetohydrodynamic waves

KW - magnetic structures

KW - wave propagation

KW - transport of energy

KW - light bridge

KW - flux tubes

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DO - 10.3847/1538-4357/ad7958

M3 - Article

AN - SCOPUS:85208048944

SN - 0004-637X

VL - 975

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 45

ER -

Modeling the Effects of a Light Bridge on Properties of Magnetohydrodynamic Waves in Solar Pores

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