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Energetic-particle abundances in impulsive solar flare events (1994)

Von Rosenvinge, T. T. ; Reames, D. V. ; Meyer, J. P.

In: Other Sources

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Publication Date: 2011-08-24

Description: We report on the abundances of energetic particles from impulsive solar flares, including those from a survey of 228 He-3 rich events, with He-3/He-4 is greater than 0.1, observed by the International Sun Earth Explorer (ISEE) 3 spacecraft from 1978 August through 1991 April. The rate of occurrence of these events corresponds to approximately 1000 events/yr on the solar disk at solar maximum. Thus the resonant plasma processes that enhance He-3 and heavy elements are a common occurrence in impulsive solar flares. To supply the observed fluence of He-3 in large events, the acceleration must be highly efficient and the source region must be relatively deep in the atmosphere at a density of more than 10(exp 10) atoms/cu cm. He-3/He-4 may decrease in very large impulsive events because of depletion of He-3 in the source region. The event-to-event variations in He-3/He-4, H/He-4, e/p, and Fe/C are uncorrelated in our event sample. Abundances of the elements show a pattern in which, relative to coronal composition, He-4, C, N, and O have normal abundance ratios, while Ne, Mg, and Si are enhanced by a factor approximately 2.5 and Fe by a factor approximately 7. This pattern suggests that elements are accelerated from a region of the corona with an electron temperature of approximately 3-5 MK, where elements in the first group are fully ionized (Q/A = 0.5), those in the second group have two orbital electrons (Q/A approximately 0.43), and Fe has Q/A approximately 0.28. Ions with the same gyrofrequency absorb waves of that frequency and are similarly accelerated and enhanced. Further stripping may occur after acceleration as the ions begin to interact with the streaming electrons that generated the plasma waves.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal Supplement Series (ISSN 0067-0049); 90; 2; p. 649-667

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2

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Solar wind thermal electrons in the ecliptic plane between 1 and 4 AU - Preliminary results from the Ulysses radio receiver (1992)

Macdowall, R. J. ; Bougeret, J.-L. ; Mangeney, A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The radio receiver of the Unified Radio and Plasma experiment aboard the Ulysses spacecraft records spectra of the quasi-thermal plasma noise. The interpretation of these spectra allows the determination of the total electron density Ne and of the cold (core) electron temperature Tc in the solar wind. A single power law does not fit the variations of Ne which result from the contribution from different solar wind structures. The distribution of the values of Tc suggests that, on the average, the solar wind is nearly isothermal.

Keywords: SOLAR PHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 19; 12, J; 1295-129

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3

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COSTEP: A comprehensive suprathermal and energetic particle analyzer for SOHO (1988)

Holweger, Hartmut ; Vonrosenvinge, Tycho ; Green, Guenter ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: The group of instruments involved in the COSTEP (comprehensive suprathermal and energetic particle analyzer) project are described. Three sensors, the LION (low energy ion and electron) instrument, the MEICA (medium energy ion composition analyzer) and the EPHIN (electron proton helium instrument) are described. They are designed to analyze particle emissions from the sun over a wide range of species (electrons through iron) and energies (60 KeV/particle to 500 MeV/nucleon). The data collected is used in studying solar and space plasma physics.

Keywords: SOLAR PHYSICS

Type: ESA, The SOHO Mission. Scientific and Technical Aspects of the Instruments; p 75-80

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4

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Diffusion in the chromosphere and the composition of the solar corona and energetic particles (1985)

Meyer, J. P. ; Vauclair, S.

In: CASI

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Publication Date: 2019-06-28

Description: Composition observations, in the solar photosphere, and in the upper transition region (TR) and corona imply a change of composition of the solar atmosphere somewhere between the photosphere and the upper TR. Heavy elements with first ionization potential (FIP) 9 eV (high-FIP element) are approx. 4 times less abundant in the TR and corona than in the photosphere, as compared to both hydrogen and heavy elements with lower low-FIP elements. A separation is suggested between neutral and ionized elements in a region where the high-FIP elements are mostly neutral, and the low-FIP elements ionized. This occurs in the chromosphere at altitudes above 600 km and below 2000 km above Photosphere. Whether the diffusion processes can explain the observed change in composition is investigated.

Keywords: SOLAR PHYSICS

Type: SH-2.1-9 , 19th Intern. Cosmic Ray Conf - Vol. 4; p 233-236; NASA-CP-2376-VOL-4

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5

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Further observations of protons resulting from the decay of neutrons ejected by solar flares (1985)

Kroeger, R. ; Meyer, P. ; Evenson, P. A.

In: CASI

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Publication Date: 2019-06-28

Description: The solar flare of 1984 April 24 produced a large gamma ray fluence with energy 2MeV. The time profile of the interplanetary flux from this flare indicates the presence of decaying solar neutrons. This makes a total of three neutron flares so far observed by this method. The three flares are used to place constraints on the fluence and spectra of neutrons emitted by the Sun.

Keywords: SOLAR PHYSICS

Type: SH-1.4-2 , 19th Intern. Cosmic Ray Conf - Vol. 4; p 130-133; NASA-CP-2376-VOL-4

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6

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The energy spectra of solar flare electrons (1985)

Hovestadt, D. ; Meyer, P. ; Moses, D. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A survey of 50 electron energy spectra from .1 to 100 MeV originating from solar flares was made by the combination of data from two spectrometers onboard the International Sun Earth Explorer-3 spacecraft. The observed spectral shapes of flare events can be divided into two classes through the criteria of fit to an acceleration model. This standard two step acceleration model, which fits the spectral shape of the first class of flares, involves an impulsive step that accelerates particles up to 100 keV and a second step that further accelerates these particles up to 100 MeV by a single shock. This fit fails for the second class of flares that can be characterized as having excessively hard spectra above 1 MeV relative to the predictions of the model. Correlations with soft X-ray and meter radio observations imply that the acceleration of the high energy particles in the second class of flares is dominated by the impulsive phase of the flares.

Keywords: SOLAR PHYSICS

Type: SH-1.2-14 , 19th Intern. Cosmic Ray Conf - Vol. 4; p 74-77; NASA-CP-2376-VOL-4

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7

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Element abundances in solar (He-3) rich events (1991)

Von Rosenvinge, T. T. ; Cane, H. V. ; Meyer, J.-P. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The results of a survey of over 228 (He-3)-rich events, with He-3/H-4 of more than 0.1, observed by the ISEE-3 spacecraft from 1978 August through 1991 April. In these events the elements above C are enhanced relative to the corresponding abundances in the corona and the degree of enhancement increases with Z or A. The flare-to-flare variations in abundances are different in character from those seen in large proton events. For example, using Fe/C as a parameter to describe these variations, the slope of the least-squares fits to ln(X/C) vs ln(Fe/C), where X is the intensity of N, O, Ne, Mg, Si, or S. Slopes of these abundance-correlation lines are much steeper for the (He-3)-rich events than for a sample of 36 large proton events, especially for Ne and heavier ions. The event-to-event variations for the (He-3)-rich events distinguish 3 groups of elements, He-O, Ne-S, and Fe. The abundances of all of the species within each group seem to vary in unison.

Keywords: SOLAR PHYSICS

Type: International Cosmic Ray Conference; Aug 11, 1991 - Aug 23, 1991; Dublin

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8

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Electron acceleration in solar flares (1989)

Droge, Wolfgang ; Evenson, Paul ; Meyer, Peter ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: For the period Spetember 1978 to December 1982, 55 solar flare particle events for which the instruments on board the ISEE-3 spacecraft detected electrons above 10 MeV. Combining data with those from the ULEWAT spectrometer electron spectra in the range from 0.1 to 100 MeV were obtained. The observed spectral shapes can be divided into two classes. The spectra of the one class can be fit by a single power law in rigidity over the entire observed range. The spectra of the other class deviate from a power law, instead exhibiting a steepening at low rigidities and a flattening at high rigidities. Events with power-law spectra are associated with impulsive (less than 1 hr duration) soft X-ray emission, whereas events with hardening spectra are associated with long-duration (more than 1 hr) soft X-ray emission. The characteristics of long-duration events are consistent with diffusive shock acceleration taking place high in the corona. Electron spectra of short-duration flares are well reproduced by the distribution functions derived from a model assuming simultaneous second-order Fermi acceleration and Coulomb losses operating in closed flare loops.

Keywords: SOLAR PHYSICS

Type: Solar Physics (ISSN 0038-0938); 121; 2-Jan; 95-103;

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9

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Characteristics of energetic solar flare electron spectra (1989)

Moses, Dan ; Droege, Wolfgang ; Meyer, Peter ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: A 55 event survey of energy spectra of 0.1-100 MeV interplanetary electrons originating from solar flares as measured by two spectrometers onboard the ISEE 3 (ICE) spacecraft for the years 1978-1982 has been completed. Spectra generated using the maximum flux of a given event in each energy channel were restricted to events with a well-defined flux rise time. Two broad groups of electron spectra are considered. In one group, the spectra are well represented by a single power law in rigidity with spectral index in the range 3-4.5. The spectra in the other group deviate from a power law in rigidity systematically in that they harden with increasing rigidity. Events with near power-law spectra are found to be correlated with long-duration soft X-ray events, whereas those with hardening spectra are correlated with short-duration events. The possible variation of acceleration and propagation processes with the properties of the flare site is discussed, using the duration of the soft X-ray flare emission as an indicator of the physical parameters of the flare site (flare volume, density, coronal height, and magnetic field geometry).

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal, Part 1 (ISSN 0004-637X); 346; 523-530

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10

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A 153 day periodicity in the occurrence of solar flares producing energetic interplanetary electrons (1990)

Gibbs, Kenneth ; Grunsfeld, John M. ; Newport, Brian J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: The occurrence times of energetic (above 10 MeV) solar flare electron events observed on board the ISEE 3 spacecraft during the years 1978-1982 have been examined; strong evidence is found for a periodicity of 153 + or - 2 days, confirming the discovery of a periodicity in the occurrence of solar flares producing X-rays and gamma rays. The Rayleigh test for periodicity is applied to obtain a probability of less than 10 to the -6th that the times of the electron flares were drawn from a uniform distribution.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal Supplement Series (ISSN 0067-0049); 73; 279-283

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