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1

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Multispacecraft study of the solar wind velocity at interplanetary sector boundaries (1975)

Smith, E. J. ; Rhodes, E. J., Jr.

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Publication Date: 2019-06-27

Description: The sector structure of the interplanetary magnetic field and the solar wind velocity at the sector boundaries are compared at separations of up to 0.3 AU, 50 deg in heliocentric longitude, and 7 deg in heliographic latitude, using data from Mariner 5 en route to Venus and from the near-earth Explorer 33, 34, and 35 satellites. The polarity pattern of the magnetic sectors is found to be very similar at the two locations, and 18 pairs of corresponding sector boundaries are identified. One-hour averages of solar wind velocities near the boundaries show that the velocities near earth exceed those measured by Mariner 5 by as much as 30%. Two possible explanations of the observed velocity differences are discussed: a preferential acceleration of sector boundaries with distance, possibly caused by stream-stream interactions; and a dependence of the solar wind velocity on heliographic latitude.

Keywords: SOLAR PHYSICS

Type: Journal of Geophysical Research; 80; Mar. 1

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2

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Evidence of a large-scale gradient in the solar wind velocity (1976)

Smith, E. J. ; Rhodes, E. J., Jr.

In: Other Sources

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Publication Date: 2019-06-27

Description: Measurements of the solar wind velocity are compared at two widely separated locations, using plasma data obtained by Mariner 5, en route to Venus, and with the near-earth satellites Explorer 33, 34, and 35. A previous study of the propagation of interplanetary sector boundaries between Mariner and the earth had implied the existence of large scale velocity gradient which was interpreted as a latitude gradient of approximately 13 km/sec per degree of latitude. The results of the present investigation in which the earlier results were extended to the overall solar wind, without regard to the presence of sector boundaries, suggests that a latitude dependence of the solar wind velocity is the most plausible interpretation of the large-scale velocity gradient.

Keywords: SOLAR PHYSICS

Type: Journal of Geophysical Research; 81; May 1

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3

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Dynamic MHD modeling of the solar wind disturbances during the August 1972 events (1978)

Wolfe, J. H. ; Smith, E. J. ; Dryer, M. ; [et al.]

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Publication Date: 2019-06-27

Description: A time-dependent one-dimensional MHD theoretical model is tested by using plasma and magnetic field observations of Pioneer 9 and Pioneer 10 during the August 1972 events on the sun and in the interplanetary medium. These spacecraft were nearly aligned along a common heliocentric radius during these events, considered now to be the most spectacular and best-documented events during solar cycle 20. The observations of Pioneer 9 at 0.78 AU were used as input for the theoretical model. The plasma and magnetic field forcing functions were superimposed upon a preexisting ambient solar wind at this inner boundary, and the response was simulated as far as 8 AU. The simulated output at 2.2 AU is compared directly with the Pioneer 10 observations at 2.2 AU. Qualitative comparison is good, although several limitations of the one-dimensional theory are noted.

Keywords: SOLAR PHYSICS

Type: Journal of Geophysical Research; 83; Feb. 1

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4

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August 1972 solar-terrestrial events - Observations of interplanetary shocks at 2.2 AU (1977)

Davis, L., Jr. ; Colburn, D. S. ; Dyal, P. ; [et al.]

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Publication Date: 2019-06-27

Description: Simultaneous magnetic field and plasma observations on Pioneer 10 were used to identify three shocks and a plasma driver (possible flare ejecta) at 2.2 AU caused by the four large solar flares of August 2-7, 1972. Two shocks, the first and third, were forward shocks, while the second was a reverse shock. The local inertial velocities of all three shocks were estimated under the assumption of quasi-perpendicularity, i.e., the shocks were assumed to be propagating principally across, rather than along, the interplanetary magnetic field.

Keywords: SOLAR PHYSICS

Type: Journal of Geophysical Research; 82; Mar. 1

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5

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The August 1972 solar-terrestrial events - Interplanetary magnetic field observations (1976)

Smith, E. J.

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Publication Date: 2019-06-27

Description: Interplanetary-magnetic-field measurements made by Pioneers 9 and 10, HEOS 2, and Explorer 41 during early August 1972 are reviewed. It is noted that the two Pioneers were nearly radially aligned during the flare events, with Pioneer 9 at a distance of 0.78 AU from the sun and Pioneer 10 at a distance of 2.2 AU. The data obtained by Pioneer 9, Pioneer 10, and the two near-earth satellites are analyzed separately, and the major flare-associated shocks are identified. An attempt is made to identify corresponding shocks at the different locations and to determine their propagation velocities in the region between 0.8 and 2.2 AU. It is found that there was an obvious tendency for the average shock velocities to decrease with increasing radial distance from the sun and that the local velocities at the Pioneer locations were significantly smaller than the appropriate average values. A comparison of these local velocities indicates that there was a large deceleration of the shocks between the sun and some distance within 0.8 AU but little, if any, deceleration beyond that distance. A plot of average shock velocities from the sun to 1.0 AU as a function of longitude separation between the flares and Pioneer 9 is shown to suggest a pronounced deviation of the shock fronts from spherical symmetry.

Keywords: SOLAR PHYSICS

Type: Space Science Reviews; 19; Oct

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6

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Further evidence of a latitude gradient in the solar wind velocity (1976)

Smith, E. J. ; Rhodes, E. J., Jr.

In: Other Sources

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Publication Date: 2019-06-27

Description: Simultaneous Mariner and Explorer data are used in the present paper to show that the large-scale gradient in the bulk velocity of the solar wind observed by Coles (1972) is a heliographic latitude gradient. A value of roughly 15 km/sec/deg for the gradient is derived by a correlation technique employed by Coleman and Rosenberg (1971). A simple model of the velocity/latitude dependence is developed and is shown to be consistent with a direct comparison of the observed Mariner and Explorer velocities. The gradient inferred from the Mariner and Explorer data is compared with values obtained from corresponding analyses of Vela and IPS data.

Keywords: SOLAR PHYSICS

Type: Journal of Geophysical Research; 81; Dec. 1

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7

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Dynamic MHD modeling of solar wind corotating stream interaction regions observed by Pioneer 10 and 11 (1978)

Wu, S. T. ; Smith, E. J. ; Smith, Z. K. ; [et al.]

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Publication Date: 2019-06-27

Description: The use of the Pioneer 10 and 11 projects to test an MHD one-dimensional time-dependent model of corotating solar wind streams during the period from Sept. 30 to Nov. 25, 1973 is described. During this period, five or six corotating interaction regions streamed past the two spacecraft, and, as a result of multiple-spacecraft radial alignment and temporally varying conditions at the solar wind source, the pattern predicted by the Steinolfson et al. (1975) model could be compared with observations. The results, in general, support the validity of the model, although the neglect of thermal energy exchange leads to incorrect values for the proton temperature. A detailed analysis of a stream is discussed.

Keywords: SOLAR PHYSICS

Type: Journal of Geophysical Research; 83; Sept. 1

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8

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Pioneer 10, 11 observations of evolving solar wind streams and shocks beyond 1 AU (1977)

Smith, E. J. ; Wolfe, J. H.

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Publication Date: 2019-07-13

Description: Observations between 1 and 5 AU by Pioneers 10 and 11 have led to the identification of large numbers of interplanetary shocks. Both forward and reverse shocks, which begin to develop beyond 1.5 AU and which frequently appear as shock pairs, are found to accompany solar wind streams. The number of forward shocks continues to increase out to at least 5 AU. Reverse shocks are seen less often than forward shocks and, in some instances, disappear at larger distances. There is evidence that the shocks are corotating in the solar frame, as anticipated theoretically. The evolution of solar wind streams beyond 1 AU is profoundly affected by the shocks. A thick interaction region, with large enhancements in density, temperature, field strength and fluctuation level, forms in the region originally characterized by a positive velocity gradient. The solar wind and magnetic field properties adjacent to, and within, the interaction regions have been studied to determine their qualitative behavior and characteristic changes with distance. Several interplanetary shocks generated by solar flares have also been identified and analyzed.

Keywords: SOLAR PHYSICS

Type: L. D. de Feiter Memorial Symposium; Jun 07, 1977 - Jun 10, 1977; Tel Aviv; Israel

Format: text

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