X-Ray and EUV Spectra of Solar Flares and Laboratory Plasmas

Recent laboratory work relevant to solar flares on the spectroscopy of highly ionized atoms is reviewed. Much of this work has concerned the X-ray and EUV spectrum of iron ions, Fe XVIII–Fe XXIV, which produce prominent emission lines in the spectra of solar flares. Also discussed are recently obtained laboratory X-ray spectra of emission lines of hydrogen-like and helium-like ions, and associated satellite lines due to transitions of the type, 1s2l—2p2l, 1s22l—1s2p2l, and 1s22l— —1s2l3p. Satellite lines have also been identified in spectra of solar flares, and can be used to determine the electron temperature of the plasma. The laboratory work is important in the planning of future experiments in solar flare X-ray and EUV spectroscopy.

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Atomic physics calculations relevant to solar flare spectra

Philosophical Transactions of the Royal Society of London Series A Physical and Engineering Sciences ◽

10.1098/rsta.1991.0096 ◽

1991 ◽

Vol 336 (1643) ◽

pp. 471-484 ◽

Cited By ~ 2

Keyword(s):

Solar Flare ◽

Atomic Physics ◽

Solar Flares ◽

Solar Maximum ◽

Emission Lines ◽

Atomic Data ◽

Solar Maximum Mission ◽

X Ray ◽

Physical Conditions ◽

Recombination Processes

Solar flare spectra in the ultraviolet and X-ray wavelength regions are rich in emission lines from highly ionized ions, formed at temperatures around 10 7 K. These lines can be used as valuable diagnostics for probing the physical conditions in solar flares. Such analyses require accurate atomic data for excitation, ionization and recombination processes. In this paper, we present a review of work which has already been carried out, in particular for the Solar Maximum Mission observations, and we look to future requirements for Solar-A .

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AGN1 vs AGN2 dichotomy as seen from the point of view of ionized outflows

Proceedings of the International Astronomical Union ◽

10.1017/s1743921320002677 ◽

2019 ◽

Vol 15 (S356) ◽

pp. 96-96

Author(s):

Eleonora Sani

Keyword(s):

Accretion Rate ◽

Point Of View ◽

Emission Lines ◽

Black Hole Mass ◽

X Ray ◽

Bolometric Luminosity ◽

Wide Range ◽

Strong Contrast

AbstractI present a detailed study of ionized outflows in a large sample of 650 hard X-ray detected AGN. Taking advantage of the legacy value of the BAT AGN Spectroscopic Survey (BASS, DR1), we are able to reveal the faintest wings of the [OIII] emission lines associated with outflows. The sample allows us to derive the incidence of outflows covering a wide range of AGN bolometric luminosity and test how the outflow parameters are related with various AGN power tracers, such as black hole mass, Eddington ratio, luminosity. I’ll show how ionized outflows are more frequently found in type 1.9 and type 1 AGN (50% and 40%) with respect to the low fraction in type 2 AGN (20%). Within such a framework, I’ll demonstrate how type 2 AGN outflows are almost evenly balanced between blue- and red-shifted winds. This, in strong contrast with type 1 and type 1.9 AGN outflows which are almost exclusively blue-shifted. Finally, I’ll prove how the outflow occurrence is driven by the accretion rate, whereas the dependence of outflow properties with respect to the other AGN power tracers happens to be quite mild.

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X-Ray and EUV Spectra of Solar Flares and Laboratory Plasmas

Solar Gamma-, X-, and EUV Radiation ◽

10.1007/978-94-010-1802-9_17 ◽

1975 ◽

pp. 165-181 ◽

Cited By ~ 1

Author(s):

G. A. Doschek

Keyword(s):

Solar Flares ◽

X Ray ◽

Laboratory Plasmas

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Electrons and X-Ray Emission of Solar Flares

Symposium - International Astronomical Union ◽

10.1017/s007418090008832x ◽

1990 ◽

Vol 142 ◽

pp. 409-413

Author(s):

V. G. Kurt

Keyword(s):

Solar Activity ◽

Statistical Analysis ◽

Solar Flare ◽

Frequency Dependence ◽

Power Law ◽

Solar Flares ◽

X Rays ◽

Fast Electrons ◽

X Ray ◽

Flare Frequency

A statistical analysis of solar flare X-rays and interplanetary particle fluxes, measured onboard VENERA-13, 14 Spacecraft, was performed. The correlation of fluences for different manifestations of solar flares is strong, especially for fast electrons and hard and soft X-ray emissions. Frequency dependence on fluence value ϵi for practically all Kinds of solar flare emission can be described by power law ν (ϵ > ϵO) ∼ ϵ−0.45±0.15 which does not change significantly with solar activity. For different Hα flare importances the values of ϵi were obtained. It is proposed that appearance of certain energy flare frequency is strongly dependent on some scale factor.

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Optical Emission Lines and the X-Ray Properties of Type 1 Seyfert Galaxies

Open Astronomy ◽

10.1515/astro-2017-0316 ◽

2011 ◽

Vol 20 (3) ◽

pp. 442-447

Author(s):

G. La Mura ◽

S. Ciroi ◽

V. Cracco ◽

D. Ilić ◽

L. Č. Popović ◽

...

Keyword(s):

Structural Model ◽

Optical Emission ◽

Seyfert Galaxies ◽

Emission Lines ◽

Line Profiles ◽

Energy Bands ◽

X Ray ◽

Line Region ◽

Spectral Components

Abstract In this contribution we report on the study of the optical emission lines and X-ray spectra of a sample of Type 1 AGNs, collected from the SDSS database and observed by the XMM-Newton satellite. Using different instruments onboard XMM, we identify the spectral components of the soft and hard energy bands (in the range from 0.3 keV to 10 keV). The properties of the X-ray continuum and of the Fe Kα line feature are related to the optical broad emission line profiles and intensity ratios. The resulting picture of emission, absorption and reflection processes is interpreted by means of a structural model of the broad line region, developed on the basis of independent optical and radio observations.

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Preflare very long-periodic pulsations observed in Hα emission before the onset of a solar flare

Astronomy and Astrophysics ◽

10.1051/0004-6361/202038398 ◽

2020 ◽

Vol 639 ◽

pp. L5

Author(s):

Dong Li ◽

Song Feng ◽

Wei Su ◽

Yu Huang

Keyword(s):

Solar Flare ◽

Light Curve ◽

Solar Flares ◽

Extreme Ultraviolet ◽

Light Curves ◽

Trigger Mechanism ◽

X Ray ◽

Hα Emission ◽

Plasma Loop ◽

Full Disk

Context. Very long-periodic pulsations during preflare phases (preflare-VLPs) have been detected in the full-disk solar soft X-ray (SXR) flux. They may be regarded as precursors to solar flares and may help us better understand the trigger mechanism of solar flares. Aims. In this Letter, we report a preflare-VLP event prior to the onset of an M1.1 circular-ribbon flare on 2015 October 16. It was simultaneously observed in Hα, SXR, and extreme ultraviolet (EUV) wavelengths. Methods. The SXR fluxes in 1−8 Å and 1−70 Å were recorded by the Geostationary Operational Environmental Satellite (GOES) and Extreme Ultraviolet Variability Experiment, respectively; the light curves in Hα and EUV 211 Å were integrated over a small local region, which were measured by the 1 m New Vacuum Solar Telescope and the Atmospheric Imaging Assembly (AIA), respectively. The preflare-VLP is identified as the repeat and quasi-periodic pulses in light curves during preflare phase. The quasi-periodicity can be determined from the Fourier power spectrum with Markov chain Monte Carlo-based Bayesian. Results. Seven well-developed pulses are found before the onset of an M1.1 circular-ribbon flare. They are firstly seen in the local light curve in Hα emission and then discovered in full-disk SXR fluxes in GOES 1−8 Å and ESP 1−70 Å, as well as the local light curve in AIA 211 Å. These well-developed pulses can be regarded as the preflare-VLP, which might be modulated by LRC-circuit oscillation in the current-carrying plasma loop. The quasi-period is estimated to be ∼9.3 min. Conclusions. We present the first report of a preflare-VLP event in the local Hα line and EUV wavelength, which could be considered a precursor of a solar flare. This finding should therefore prove useful for the prediction of solar flares, especially for powerful flares.

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Atomic Calculations for the Highly Ionized Iron Ions Produced in Solar Flares

International Astronomical Union Colloquium ◽

10.1017/s0252921100085547 ◽

1984 ◽

Vol 86 ◽

pp. 141-142

Author(s):

H.E. Mason ◽

A.K. Bhatia

Keyword(s):

Electron Scattering ◽

Solar Flares ◽

Electron Collision ◽

Atomic Data ◽

Proton Scattering ◽

Iron Ions ◽

X Ray ◽

University College London ◽

The University ◽

Pair Coupling

The XUY (90–150 Å) and X-ray (10–25 Å) spectra of solar flares are rich in lines from the highly ionized iron ions. Atomic data have been calculated for Fe XVIII (Bhatia, unpublished), Fe XIX (Loulergue et al., 1984, Bhatia and Mason, 1984), Fe XX (Mason and Bhatia, 1980, 1983), Fe XXI (Mason et al., 1979), Fe XXII (Mason and Storey, 1980), Fe XXIII (Bhatia and Mason, 1981), Fe XXIV (Hayes, 1979). The University College London computer package was used. This consists of an atomic structure code (SUPERSTRUCTURE, Eissner et al., 1974); a ‘distorted wave’ electron scattering program (COLLDW, Eissner and Seaton, 1972); a ‘Bethe’ approximation electron scattering program (Burgess and Shoerey, unpublished); a program for obtaining electron collision strength in pair coupling from R matrices in LS coupling (JAJOM, Saraph, 1972); a proton scattering program (Bely and Faucher, 1970) and a program for obtaining level populations and intensity ratios.

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Radio and X-ray diagnostics of electrons accelerated in solar flares

Proceedings of the International Astronomical Union ◽

10.1017/s174392130700991x ◽

2006 ◽

Vol 2 (14) ◽

pp. 88-88

Author(s):

Miroslav Bárta ◽

Marian Karlický

Keyword(s):

Particle Acceleration ◽

Solar Flare ◽

Test Particle ◽

Solar Flares ◽

Global Scale ◽

X Ray ◽

Particle Simulations

AbstractStarting from 2.5D MHD modelling of solar flares on a global scale we calculate (using the PIC and test-particle simulations) the radio and X-ray emissions generated in solar flare reconnection. Our results – the radio and X-ray spectra and brightness distributions, and their dynamics – are directly comparable with observations providing thus a test of particle acceleration models as well as of the ‘standard’ global flare scenario.

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Global response of Magnetic field and Ionosonde observations to intense solar flares on 6 and 10 September 2017

E3S Web of Conferences ◽

10.1051/e3sconf/20186201007 ◽

2018 ◽

Vol 62 ◽

pp. 01007

Author(s):

Akiko Fujimoto ◽

Akimasa Yoshikawa ◽

Akihiro Ikeda

Keyword(s):

Magnetic Field ◽

Solar Flare ◽

Radio Wave ◽

Solar Flares ◽

Ionospheric Disturbance ◽

Sudden Change ◽

Magnetic Data ◽

Sudden Increase ◽

X Ray ◽

Night Side

Intense X-ray fluxes during solar flares are known to cause enhanced ionization in the Earth’s ionospheric D, E and F region. This sudden change of ionospheric electron density profile is serious problem to radio wave communication and navigation system. The ground magnetograms often record the sudden change in the sunlit hemisphere during the enhanced X-ray flux, due to the sudden increase in the global ionospheric current system caused by the flare-induced enhanced ionospheric conductivity. These geomagnetic field disturbances are known as ‘‘solar flare effects’’ (SFEs) or geomagnetic crochets [Campbell, 2003]. The typical SFE is increase variation on the equatorial magnetic data. On Ionosonde observation during solar flare event, the High-Frequency (HF) radio wave blackout is often detected in ionogram due to the sudden disturbance in ionosphere. Two intense X-class solar flares occurred on 6 and 10 September 2017. We investigated the magnetic field and Ionosonde responses to the intense solar flare events. Dayside magnetic field variations sudden increased due to the ionospheric disturbance resulting from solar flare. There is no response in night side magnetometer data. The magnitude of SFE (magnetic field) is independent of solar flare x-ray magnitude. We found HF radio wave blackout in ionogram at dayside Ionosonde stations. The duration of blackout is dependent of latitude and local time of Ionosonde stations. There is the different feature of ionogram at night side.

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A statistical analysis of the soft X-ray profiles of solar flares

International Astronomical Union Colloquium ◽

10.1017/s0252921100154065 ◽

1989 ◽

Vol 104 (2) ◽

pp. 161-164

Author(s):

G. Pearce ◽

R.A. Harrison

Keyword(s):

Statistical Analysis ◽

Solar Flare ◽

Solar Flares ◽

Intensity Profile ◽

Imaging Spectrometer ◽

X Ray ◽

X Ray Imaging ◽

Selection Of

We undertake a statistical analysis of the soft X-ray (3.5 – 5.5 keV) profiles of solar flares as observed with the Hard X-ray Imaging Spectrometer on the SMM. The durations, maximum intensities and intensity profiles of the flares are examined. The properties of the “typical” solar flare are discussed. The distributions of the measured parameters with respect to one another reveal some interesting results. In common with past studies, we conclude that there is no evidence to suggest that more than one type of event is being viewed, despite a desire evident in the literature to place events into distinct groups. We also conclude that commonly held views about the relatonships between flare duration and intensity, profile asymmetries and intensity etc.. are in error. For more details of the flare events, the selection of data and the method of analysis, the reader is referred to Pearce and Harrison (1988).

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