Dispersively formed quasi-periodic fast magnetosonic wavefronts due to the eruption of a nearby mini-filament

Yuandeng Shen; Tengfei Song; Yu Liu

doi:10.1093/mnrasl/sly044

Dispersively formed quasi-periodic fast magnetosonic wavefronts due to the eruption of a nearby mini-filament

Yuandeng Shen^*
, Tengfei Song
, Yu Liu

^*Corresponding author for this work

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

17 Scopus citations

Abstract

Observational analysis is performed to study the excitation mechanism and propagation properties of a quasi-periodic fast-propagating (QFP) magnetosonic wave. The QFP wave was associated with the eruption of a nearby mini-filament and a small B4 Geostationary Operational Environmental Satellite (GOES) flare, which may indicate that the generation of a QFP wave does not require much flare energy. The propagation of the QFP wave was along a bundle of funnel-shaped open loops with a speed of about 1100 ± 78 km s^-1 and an acceleration of -2.2 ± 1.1 kms^-2. Periodicity analysis indicates that the periods of the QFP wave are 43 ± 6 and 79 ± 18 s. For the first time, we find that the periods of the QFP wave and the accompanying flare are inconsistent, which is different from the findings reported in previous studies. We propose that the present QFP wave was possibly caused by the mechanism of dispersive evolution of the initially broad-band disturbance resulting from the nearby mini-filament eruption.

Original language	English
Pages (from-to)	L6-L10
Journal	Monthly Notices of the Royal Astronomical Society: Letters
Volume	477
Issue number	1
DOIs	https://doi.org/10.1093/mnrasl/sly044
State	Published - 11 Jun 2018
Externally published	Yes

Keywords

Prominences
Sun: activity
Sun: coronal mass ejections (CMEs)
Sun: filaments
Sun: flares
Sun: oscillations

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10.1093/mnrasl/sly044

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title = "Dispersively formed quasi-periodic fast magnetosonic wavefronts due to the eruption of a nearby mini-filament",

abstract = "Observational analysis is performed to study the excitation mechanism and propagation properties of a quasi-periodic fast-propagating (QFP) magnetosonic wave. The QFP wave was associated with the eruption of a nearby mini-filament and a small B4 Geostationary Operational Environmental Satellite (GOES) flare, which may indicate that the generation of a QFP wave does not require much flare energy. The propagation of the QFP wave was along a bundle of funnel-shaped open loops with a speed of about 1100 ± 78 km s-1 and an acceleration of -2.2 ± 1.1 kms-2. Periodicity analysis indicates that the periods of the QFP wave are 43 ± 6 and 79 ± 18 s. For the first time, we find that the periods of the QFP wave and the accompanying flare are inconsistent, which is different from the findings reported in previous studies. We propose that the present QFP wave was possibly caused by the mechanism of dispersive evolution of the initially broad-band disturbance resulting from the nearby mini-filament eruption.",

keywords = "Prominences, Sun: activity, Sun: coronal mass ejections (CMEs), Sun: filaments, Sun: flares, Sun: oscillations",

author = "Yuandeng Shen and Tengfei Song and Yu Liu",

note = "Publisher Copyright: {\textcopyright} 2018 The Author(s).",

year = "2018",

month = jun,

day = "11",

doi = "10.1093/mnrasl/sly044",

language = "英语",

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T1 - Dispersively formed quasi-periodic fast magnetosonic wavefronts due to the eruption of a nearby mini-filament

AU - Shen, Yuandeng

AU - Song, Tengfei

AU - Liu, Yu

PY - 2018/6/11

Y1 - 2018/6/11

N2 - Observational analysis is performed to study the excitation mechanism and propagation properties of a quasi-periodic fast-propagating (QFP) magnetosonic wave. The QFP wave was associated with the eruption of a nearby mini-filament and a small B4 Geostationary Operational Environmental Satellite (GOES) flare, which may indicate that the generation of a QFP wave does not require much flare energy. The propagation of the QFP wave was along a bundle of funnel-shaped open loops with a speed of about 1100 ± 78 km s-1 and an acceleration of -2.2 ± 1.1 kms-2. Periodicity analysis indicates that the periods of the QFP wave are 43 ± 6 and 79 ± 18 s. For the first time, we find that the periods of the QFP wave and the accompanying flare are inconsistent, which is different from the findings reported in previous studies. We propose that the present QFP wave was possibly caused by the mechanism of dispersive evolution of the initially broad-band disturbance resulting from the nearby mini-filament eruption.

AB - Observational analysis is performed to study the excitation mechanism and propagation properties of a quasi-periodic fast-propagating (QFP) magnetosonic wave. The QFP wave was associated with the eruption of a nearby mini-filament and a small B4 Geostationary Operational Environmental Satellite (GOES) flare, which may indicate that the generation of a QFP wave does not require much flare energy. The propagation of the QFP wave was along a bundle of funnel-shaped open loops with a speed of about 1100 ± 78 km s-1 and an acceleration of -2.2 ± 1.1 kms-2. Periodicity analysis indicates that the periods of the QFP wave are 43 ± 6 and 79 ± 18 s. For the first time, we find that the periods of the QFP wave and the accompanying flare are inconsistent, which is different from the findings reported in previous studies. We propose that the present QFP wave was possibly caused by the mechanism of dispersive evolution of the initially broad-band disturbance resulting from the nearby mini-filament eruption.

KW - Prominences

KW - Sun: activity

KW - Sun: coronal mass ejections (CMEs)

KW - Sun: filaments

KW - Sun: flares

KW - Sun: oscillations

UR - https://www.scopus.com/pages/publications/85046538584

U2 - 10.1093/mnrasl/sly044

DO - 10.1093/mnrasl/sly044

M3 - 文章

AN - SCOPUS:85046538584

SN - 1745-3925

VL - 477

SP - L6-L10

JO - Monthly Notices of the Royal Astronomical Society: Letters

JF - Monthly Notices of the Royal Astronomical Society: Letters

IS - 1

ER -

Dispersively formed quasi-periodic fast magnetosonic wavefronts due to the eruption of a nearby mini-filament

Abstract

Keywords

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