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1

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Observations of a probable change in the solar radius between 1715 and 1979 (1980)

Fiala, A. D. ; Muller, P. M. ; Herald, D. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: A decrease in the solar radius is determined using the technique of Dunham and Dunham (1973), in which timed observations are made just inside the path edges. When the method is applied to the solar eclipses of 1715, 1976, and 1979, the solar radius for 1715 is 0.34 + or - 0.2 arc second larger than the recent values, with no significant change between 1976 and 1979. The duration of totality is examined as a function of distance from the edges of the path. Corrections to the radius of the sun derived from observations of the 1976 and 1979 eclipses by the International Occultation Timing Association are also presented.

Keywords: SOLAR PHYSICS

Type: Science; 210; Dec. 12

Format: text

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2

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A solar activity monitoring platform for SCADM (1980)

Kissell, K. E. ; Ratcliff, D. D.

In: CASI

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Publication Date: 2006-01-16

Description: The adaptation of proven space probe technology is proposed as a means of providing a solar activity monitoring platform which could be injected behind the Earth's orbital position to give 3 to 6 days advanced coverage of the solar phenomenon on the backside hemisphere before it rotates into view and affects terrestrial activities. The probe would provide some three dimensional discrimination within the ecliptic latitude. This relatively simple off-Earth probe could provide very high quality data to support the SCADM program, by transmitting both high resolution video data of the solar surface and such measurements of solar activity as particle, X-ray, ultraviolet, and radio emission fluxes. Topics covered include the orbit; constraints on the spacecraft; subsystems and their embodiments; optical imaging sensors and their operation; and the radiation-pressure attitude control system are described. The platform would be capable of mapping active regions on an hourly basis with one arc-second resolution.

Keywords: SOLAR PHYSICS

Type: NASA. Goddard Space Flight Center Study of the Solar Cycle from Space; p 45-54

Format: text

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3

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Solar cycle changes in the polar solar wind (1980)

Rumsey, V. H. ; Harmons, J. K. ; Turley, D. G. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: It is noted that although the 11 year solar cycle was first recognized in 1843, it is still only poorly understood. Further, while there are satisfactory models for the magnetic variations, the underlying physics is still obscure. New observations on the changing three-dimensional form of the solar wind are presented which help relate some of the modulations observed in geomagnetic activity, the ionosphere, and the flux of galactic cosmic rays.

Keywords: SOLAR PHYSICS

Type: AD-A099231 , AFGL-TR-81-0113 , Nature; 286; July 17

Format: text

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4

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Mechanical energy output of the 5 September 1973 flare (1980)

Martin, S. F. ; Webb, D. F. ; Edberg, S. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The mechanical energy flux of observed macroscopic mass plasma motions in the solar flare of Sept. 5, 1973, is estimated. Consideration is given to the cool eruptive material in the eruptive filament and large surge as revealed by H alpha observations, the moving emission front seen in Ca II as well as H alpha, the piston-driven shock and mass ejection coronal transient observed in radio spectra and flare core motions, and mechanical energy estimates of 5.6 x 10 to the 29th to 8.9 x 10 to the 30th, 9.0 x 10 to the 29th, 2 x 10 to the 30th (thermal) and 10 to the 31st (magnetic), and 9 x 10 to the 24th erg are obtained, respectively, in agreement with previous estimates. It is concluded that the mechanical energy of large-scale mass motions dominates the radiative output of the flare by more than two orders of magnitude, and that a significant portion of the mechanical energy is in the form of magnetic flux delivered to interplanetary space.

Keywords: SOLAR PHYSICS

Format: text

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5

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Mass ejections (1980)

Mckenna-Lawlor, S. M. P. ; Mclean, D. J. ; Hildner, E. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Observations and model simulations of solar mass ejection phenomena are examined in an investigation of flare processes. Consideration is given to Skylab and other observations of flare-associated sprays, eruptive prominences, surges and coronal transients, and to MHD, gas dynamic and magnetic loop models developed to account for them. Magnetic forces are found to confine spray material, which originates in preexisting active-region filaments, within steadily expanding loops, while surges follow unmoving, preexisting magnetic field lines. Simulations of effects of a sudden pressure pulse at the bottom of the corona are found to exhibit many characteristics of coronal transients associated with flares, and impulsive heating low in the chromosphere is found to be able to account for surges. The importance of the magnetic field as the ultimate source of energy which drives eruptive phenomena as well as flares is pointed out.

Keywords: SOLAR PHYSICS

Format: text

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6

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The preflare state (1980)

Barbosa, D. D. ; Jackson, B. V. ; Van Hoven, G. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The accumulation, storage and irreversible release of the free energy necessary for a solar flare are discussed on the basis of data obtained from the Apollo Telescope Mount on Skylab and other pertinent sources. Skylab and OSO 7 observations of possible flare precursors and flare evolution are presented, and the evolution of the flare of Sept. 5, 1973, the most completely observed flare of the Skylab program, is described in detail, with account given to magnetic structures and H alpha radiation. Theories of the preflare state are then reviewed, with attention given to the force-free fields and coronal arcades, thermal and magnetic structures and the MHD stability of coronal loops.

Keywords: SOLAR PHYSICS

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7

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New atlas of IR solar spectra (1980)

Vanallen, J. W. ; Goldman, A. ; Cook, G. R. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Over 4500 absorption lines have been marked on the spectra and the corresponding line positions tabulated. The associated absorbing telluric or solar species for more than 90% of these lines have been identified and only a fraction of the unidentified lines have peak absorptions greater than a few percent. The high resolution and the low Sun spectra greatly enhance the sensitivity limits for identification of trace constituents.

Keywords: SOLAR PHYSICS

Type: NASA-CR-163499

Format: application/pdf

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Overview

8

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Is there a limit on solar flare proton fluxes (1980)

Barbosa, D. D.

In: Other Sources

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Publication Date: 2019-06-27

Description: The possibility that solar flare proton fluxes are limited in magnitude by saturation effects inherent to the acceleration mechanism is explored. If cyclotron damping of Alfven waves acts to accelerate protons, the criterion that the damping time is comparable to the acceleration time provides a fast particle number density at which protons load the wave spectrum. The limiting flux at 1 AU is obtained by a volume integration over the acceleration region and redistribution into an interplanetary emission cone. A simplified explosion model permits a delineation between volume and surface acceleration mechanisms in terms of a temporal parameter, the effective duration of acceleration. It is concluded that the limiting flux may be a realistic concept, but that further investigation is warranted to sharpen the criterion.

Keywords: SOLAR PHYSICS

Type: Solar Physics; 67; Aug. 198

Format: text

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9

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Radiative energy output of the 5 September 1973 flare (1980)

Robinson, R. D., Jr. ; Mclean, D. J. ; Cheng, C.-C. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Measurements of the radiative energy output of the solar flare of Sept. 5, 1973, over a wavelength range of more than ten decades, from below 1 A to above 1 m are presented. Observations of soft X-rays (0.5-20 A), XUV and EUV lines (171-1863 A) and EUV continua (1400-1960 A), H alpha radiation, visible lines and continua (3700-8700 A) and radio emission (centimeter to meter wavelengths) were obtained concurrently by Skylab and ground-based instruments. Estimates of power output at flare maximum are obtained for the observed wavelengths with uncertainty of at least half an order of magnitude, due to corresponding uncertainties in EUV and visible fluxes. Taking into account energy radiated at unobserved wavelengths and the characteristic time of the best-reduced data (the soft X-ray), calculations indicate a total radiated flare energy of approximately 4 x 10 to the 29th erg.

Keywords: SOLAR PHYSICS

Format: text

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10

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Impulsive phase of solar flares (1980)

Maetzler, C. ; Petrosian, V. ; Gabriel, A. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The present understanding of the impulsive phase of a solar flare, characterized by short-duration bursts of impulsive hard X-ray, EUV, optical and radio emission indicating the release of energetic electrons is reviewed. Observations of the spectral distribution of impulsive hard X-ray bursts and of Type III and radio continuum bursts are presented and interpreted in terms of energetic electron distributions, and impulsive EUV, XUV, soft X-ray and optical observations, which provide a lower limit to total energy release during the impulsive phase, are discussed. The role of energetic electrons in exciting the hard X-ray, EUV and microwave emissions is considered, and thin-target, thick-target, partial-precipitation and thermal models of impulsive phase electron acceleration are evaluated in light of the observations. It is noted that available data do not allow discrimination between a thermal or a nonthermal electron distribution, on which depends the proportion of flare energy supplied by the energetic electrons, and that data favors models which permit at least partial electron precipitation. Future observational and theoretical work is indicated.

Keywords: SOLAR PHYSICS

Type: AD-A091329 , AFGL-TR-80-0303

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