Synthetic Emissions of the Fe xxi 1354 Å Line from Flare Loops Experiencing Fundamental Fast Sausage Oscillations

Shi, Mijie; Li, Bo; Huang, Zhaoqin; Chen, Shao-Xia

doi:10.3847/1538-4357/ab07b8

Cited by 11 publications

(13 citation statements)

References 49 publications

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“…Inspired by the work of Tian et al (2016b), Shi et al (2019) forward-modeled the response of the IRIS Fe XXI line to fast sausage modes in flare loops under NEI conditions. They found that the synthetic spectral signatures, in particular the phase difference between the intensity and Doppler-shift oscillations, are mostly consistent with the IRIS observations.…”

Section: Magnetic Reconnection In Flaresmentioning

confidence: 99%

A New View of the Solar Interface Region from the Interface Region Imaging Spectrograph (IRIS)

et al. 2021

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The Interface Region Imaging Spectrograph (IRIS) has been obtaining near- and far-ultraviolet images and spectra of the solar atmosphere since July 2013. IRIS is the highest resolution observatory to provide seamless coverage of spectra and images from the photosphere into the low corona. The unique combination of near- and far-ultraviolet spectra and images at sub-arcsecond resolution and high cadence allows the tracing of mass and energy through the critical interface between the surface and the corona or solar wind. IRIS has enabled research into the fundamental physical processes thought to play a role in the low solar atmosphere such as ion–neutral interactions, magnetic reconnection, the generation, propagation, and dissipation of waves, the acceleration of non-thermal particles, and various small-scale instabilities. IRIS has provided insights into a wide range of phenomena including the discovery of non-thermal particles in coronal nano-flares, the formation and impact of spicules and other jets, resonant absorption and dissipation of Alfvénic waves, energy release and jet-like dynamics associated with braiding of magnetic-field lines, the role of turbulence and the tearing-mode instability in reconnection, the contribution of waves, turbulence, and non-thermal particles in the energy deposition during flares and smaller-scale events such as UV bursts, and the role of flux ropes and various other mechanisms in triggering and driving CMEs. IRIS observations have also been used to elucidate the physical mechanisms driving the solar irradiance that impacts Earth’s upper atmosphere, and the connections between solar and stellar physics. Advances in numerical modeling, inversion codes, and machine-learning techniques have played a key role. With the advent of exciting new instrumentation both on the ground, e.g. the Daniel K. Inouye Solar Telescope (DKIST) and the Atacama Large Millimeter/submillimeter Array (ALMA), and space-based, e.g. the Parker Solar Probe and the Solar Orbiter, we aim to review new insights based on IRIS observations or related modeling, and highlight some of the outstanding challenges.

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Section: Magnetic Reconnection In Flaresmentioning

confidence: 99%

A New View of the Solar Interface Region from the Interface Region Imaging Spectrograph (IRIS)

et al. 2021

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“…This requirement is more stringent than that the wave period P = 2π/ω be much longer than the ionization and recombination timescales (1/ν C and 1/ν R ). Non-EI effects are therefore seen even in the study on the Fe XXI 1354 Å line emitted from flare loops, despite the high densities therein (Shi et al 2019a). That said, the non-EI computations differ from their EI counterparts only in intensity variations, whereas the Doppler shifts and Doppler widths hardly experience any influence.…”

Section: Thermal Emissionsmentioning

confidence: 90%

“…The issue with temporal cadence arises from the short period of FSMs, which led AVD13 to propose that the ionic fractions (fq) may not respond instantaneously to the temperature variations to maintain ionization equilibrium. Indeed, it was shown by Shi et al (2019a) that non-equilibrium ionization (non-EI) effects are negligible only when the angular frequencies ω of FSMs are far below the ionization and recombination frequencies (ν C and ν R ). This requirement is more stringent than that the wave period P = 2π/ω be much longer than the ionization and recombination timescales (1/ν C and 1/ν R ).…”

Section: Thermal Emissionsmentioning

confidence: 99%

“…Indeed, AVD13 showed that the wave modulation of spectroscopic quantities is substantial, particularly for the Doppler width. Summing up AVD13, Shi et al (2019c) and Shi et al (2019a), one expects the following (E)UV signatures of fundamental trapped FSMs. Firstly, the intensity variations consistently possess the same period as the FSM.…”

Section: Thermal Emissionsmentioning

confidence: 99%

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Magnetohydrodynamic Fast Sausage Waves in the Solar Corona

Antolin

Guo

et al. 2020

Space Sci Rev

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Characterized by cyclic axisymmetric perturbations to both the magnetic and fluid parameters, magnetohydrodynamic fast sausage modes (FSMs) have proven useful for solar coronal seismology given their strong dispersion. This review starts by summarizing the dispersive properties of the FSMs in the canonical configuration where the equilibrium quantities are transversely structured in a step fashion. With this preparation we then review the recent theoretical studies on coronal FSMs, showing that the canonical dispersion features have been better understood physically, and further exploited seismologically. In addition, we show that departures from the canonical equilibrium configuration have led to qualitatively different dispersion features, thereby substantially broadening the range of observations that FSMs can be invoked to account for. We also summarize the advances in forward modeling studies, emphasizing the intricacies in interpreting observed oscillatory signals in terms of FSMs. All these advances notwithstanding,

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“…Inspired by the fundamental FSMs measured in flare loops in T16, we forward-modelled the numerical results by using the FoMo code ) to obtain their observational signals. We perform the synthetic process by using the Fe XXI 1354 Å spectral line, which has been considered by Shi et al (2019) in their forward modeling effort associated with the above-mentioned IRIS measurements. In our case, however, the coronal loop with substructures therein is a more realistic consideration.…”

Section: Observable Propertiesmentioning

confidence: 99%

Fast Sausage Oscillations in Coronal Loops with Fine Structures

Guo,

Li,

Shi

2021

Preprint

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Fast sausage modes (FSMs) in flare loops have long been invoked to account for rapid quasi-periodic pulsations (QPPs) with periods of order seconds in flare lightcurves. However, most theories of FSMs in solar coronal cylinders assume a perfectly axisymmetric equilibrium, an idealized configuration apparently far from reality. In particular, it remains to examine whether FSMs exist in coronal cylinders with fine structures. Working in the framework of ideal magnetohydrodynamics (MHD), we numerically follow the response to an axisymmetric perturbation of a coronal cylinder for which a considerable number of randomly distributed fine structures are superposed on an axisymmetric background. The parameters for the background component are largely motivated by the recent IRIS identification of a candidate FSM in Fe XXI 1354 Å observations. We find that the composite cylinder rapidly settles to an oscillatory behavior largely compatible with a canonical trapped FSM. This happens despite that kink-like motions develop in the fine structures. We further synthesize the Fe XXI 1354 Å emissions, finding that the transverse Alfvén time characterizes the periodicities in the intensity, Doppler shift, and Doppler width signals. Distinct from the case without fine structuring,

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Synthetic Emissions of the Fe xxi 1354 Å Line from Flare Loops Experiencing Fundamental Fast Sausage Oscillations

Cited by 11 publications

References 49 publications

A New View of the Solar Interface Region from the Interface Region Imaging Spectrograph (IRIS)

A New View of the Solar Interface Region from the Interface Region Imaging Spectrograph (IRIS)

Magnetohydrodynamic Fast Sausage Waves in the Solar Corona

Fast Sausage Oscillations in Coronal Loops with Fine Structures

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