Longitudinal Waves in Coronal Loops

Ineke De Moortel

doi:10.1007/s11214-009-9526-5

Longitudinal Waves in Coronal Loops

Ineke De Moortel

Applied Mathematics

Research output: Contribution to journal › Review article › peer-review

Abstract

High-cadence TRACE observations show that outward-propagating intensity disturbances are a common feature in large, quiescent coronal loops. Analysis of the frequency distribution of these modes shows peaks at both three- and five-minute periods, indicating that they may be driven by the solar surface oscillations (p modes). The energy flux contained within the coronal intensity disturbances is of the order of (1.1±0.4)×103 ergs cm−2 s−1. A simple order-of-magnitude estimate of the damping rate of the relevant p modes allows us to put an observational constraint on the damping of p modes and shows that leakage into the overlying coronal atmosphere might be able to account for a significant fraction of p-mode damping.

Original language	English
Pages (from-to)	65-81
Journal	Space Science Reviews
Volume	149
Issue number	1-4
DOIs	https://doi.org/10.1007/s11214-009-9526-5
Publication status	Published - Dec 2009

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10.1007/s11214-009-9526-5

Solar&Magnetospheric Plasma Theory PP/E1: Solar and Magnetospheric Plasma Theory
Neukirch, T. (PI), Hood, A. W. (CoI), Parnell, C. E. (CoI), Priest, E. (CoI), Roberts, B. (CoI) & Wright, A. N. (CoI)
PPARC - Now STFC
1/04/07 → 31/03/12
Project: Standard

Cite this

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title = "Longitudinal Waves in Coronal Loops",

abstract = "High-cadence TRACE observations show that outward-propagating intensity disturbances are a common feature in large, quiescent coronal loops. Analysis of the frequency distribution of these modes shows peaks at both three- and five-minute periods, indicating that they may be driven by the solar surface oscillations (p modes). The energy flux contained within the coronal intensity disturbances is of the order of (1.1±0.4)×103 ergs cm−2 s−1. A simple order-of-magnitude estimate of the damping rate of the relevant p modes allows us to put an observational constraint on the damping of p modes and shows that leakage into the overlying coronal atmosphere might be able to account for a significant fraction of p-mode damping. ",

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year = "2009",

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doi = "10.1007/s11214-009-9526-5",

language = "English",

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T1 - Longitudinal Waves in Coronal Loops

AU - De Moortel, Ineke

PY - 2009/12

Y1 - 2009/12

N2 - High-cadence TRACE observations show that outward-propagating intensity disturbances are a common feature in large, quiescent coronal loops. Analysis of the frequency distribution of these modes shows peaks at both three- and five-minute periods, indicating that they may be driven by the solar surface oscillations (p modes). The energy flux contained within the coronal intensity disturbances is of the order of (1.1±0.4)×103 ergs cm−2 s−1. A simple order-of-magnitude estimate of the damping rate of the relevant p modes allows us to put an observational constraint on the damping of p modes and shows that leakage into the overlying coronal atmosphere might be able to account for a significant fraction of p-mode damping.

AB - High-cadence TRACE observations show that outward-propagating intensity disturbances are a common feature in large, quiescent coronal loops. Analysis of the frequency distribution of these modes shows peaks at both three- and five-minute periods, indicating that they may be driven by the solar surface oscillations (p modes). The energy flux contained within the coronal intensity disturbances is of the order of (1.1±0.4)×103 ergs cm−2 s−1. A simple order-of-magnitude estimate of the damping rate of the relevant p modes allows us to put an observational constraint on the damping of p modes and shows that leakage into the overlying coronal atmosphere might be able to account for a significant fraction of p-mode damping.

U2 - 10.1007/s11214-009-9526-5

DO - 10.1007/s11214-009-9526-5

M3 - Review article

SN - 0038-6308

VL - 149

SP - 65

EP - 81

JO - Space Science Reviews

JF - Space Science Reviews

IS - 1-4

ER -

Longitudinal Waves in Coronal Loops

Abstract

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Solar&Magnetospheric Plasma Theory PP/E1: Solar and Magnetospheric Plasma Theory

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