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1

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Interplanetary magnetic field draping about fast coronal mass ejecta in the outer heliosphere (1988)

Smith, E. J. ; Winterhalter, D. ; Mccomas, D. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: The possibility that the IMF becomes draped around coronal mass ejections (CMEs) propagating rapidly through the quiescent solar wind into the outer heliosphere is investigated theoretically. The results are presented in diagrams and graphs and discussed in detail. It is found that large sunward-directed structures analogous to the Venus and cometary magnetotails should form when the CME velocity exceeds the solar-wind velocity by more than the local Alfven speed; such structures could hang up swept-up IMF flux for as long as several days. Pioneer 11 magnetic-field measurements at 6.9-9.4 AU from three 20-d periods in 1978 are examined and shown to contain some features consistent with CME draping.

Keywords: ASTROPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 93; 2519-252

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2

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Electron velocity distributions near interplantary shocks (1983)

Zwickl, R. D. ; Anderson, R. C. ; Bame, S. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Previous work on electron heating mechanisms operating at the supercritical earth's bow shock is extended to the generally lower Mach number interplanetary shocks. This is done by studying electron velocity distributions observed both upstream and downstream of interplanetary shocks observed by ISEE 3 between August 1978 and December 1979. It is found that perpendicular heating accompanied by little or no parallel heating occurs at the weaker shocks but that parallel heating is dominant for the stronger shocks. When perpendicular heating is dominant, downstream velocity distributions are for the most part Gaussian at low energies (core) and Lorentzian at high energies (halo). When parallel heating is dominant, however, these distributions are flat-topped at low energies, having power law extensions to higher energies. At the weaker shocks, the observations are consistent with electron heating resulting from conservation of the magnetic moment, whereas at the stronger shocks the heating is quite similar to that observed at the earth's bow shock.

Keywords: ASTROPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 88; 9949-995

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3

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Steepened magnetosonic waves in the high beta plasma surrounding Comet Giacobini-Zinner (1986)

Tsurutani, B. T. ; Gosling, J. T. ; Smith, E. J. ; [et al.]

In: Other Sources

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Publication Date: 2013-08-29

Description: Studies of intense hydromagnetic waves at Giacobini-Zinner are extended to investigate the mode and direction of wave propagation. Simultaneous high-resolution measurements of electron density fluctuations demonstrate that long period waves propagate in the magnetosonic mode. Principal axis analyses of the long period waves and accompanying partial rotations show that the sum of the wave phase rotations is 360 deg, indicating that both are parts of the same wave oscillation. The time sequence of the steepened waveforms observed by ICE shows that the waves must propagate towards the Sun with Cph less than Vsw. Observations are consistent with wave generation by resonant ion ring or ion beam instability which predicts right-hand polarized waves propagating in the ion beam (solar) direction. The large amplitudes and small scale sizes of the cometary waves suggest that rapid pitch-angle scattering and energy transfer with energetic ions should occur. Since the waves are highly compressive, first-order Fermi acceleration is forecast.

Keywords: ASTROPHYSICS

Type: ESA, Proceedings of the 20th ESLAB Symposium on the Exploration of Halley's Comet. Volume 3: Posters; p 457-460

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4

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The Comet Giacobini-Zinner magnetotail: Axial stresses and inferred near-nucleus properties (1986)

Smith, E. J. ; Slavin, J. A. ; Bame, S. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Utilizing the electron and magnetic field data from the ICE tail traversal of comet Giacobini-Zinner along with the MHD equations, a steady state, stress balance model of the cometary magnetotail was developed, and used to infer important but unmeasured ion properties within the magnetotail at ICE and upstream at the average point along each streamline where cometary ions are picked-up. The derived tailward ion flow speed at ICE is quite constant at approx. -20 to -30 km/sec across the entire tail. The flow velocity, ion temperature, density, and ion source rates upstream from the lobes (current sheet) at the average pick-up locations are approx. -75 km/sec (approx. -12), approx. 4 million K (approx. 100,000), approx. 20 cc (approx. 400), and approx. 15 cu cm/sec. Gradients in the plasma properties between the two regions are quite strong. Implications of inferred plasma properties for the near-nucleus region and for cometary magnetotail formation are examined.

Keywords: ASTROPHYSICS

Type: ESA Proceedings of the 20th ESLAB Symposium on the Exploration of Halley's Comet. Volume 1: Plasma and Gas; p 301-304

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5

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Ion acceleration at shocks in interplanetary space - A brief review of recent observations (1983)

Gosling, J. T.

In: Other Sources

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Publication Date: 2019-06-28

Description: An assessment is presented of recent observations providing insights into the collisionless shock ion acceleration process as it is observed near the earth's bow shock and near interplanetary shocks generated by solar activity, with emphasis on the way in which the ion acceleration process appears to be the same for both types of shocks. The observed differences in energetic particle distributions found near these shocks appear to be related to the seed populations available for acceleration, the shock's extent, radius of curvature, and the angle beween the local shock normal and the magnetic field vector, the time of field line connection to the shock, and possibly the shock Mach number.

Keywords: ASTROPHYSICS

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6

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Interplanetary ions during an energetic storm particle event - The distribution function from solar wind thermal energies to 1.6 MeV (1981)

Paschmann, G. ; Bame, S. J. ; Zwickl, R. D. ; [et al.]

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Publication Date: 2019-06-28

Description: An ion velocity distribution function of the postshock phase of an energetic storm particle (ESP) event is obtained from data from the ISEE 2 and ISEE 3 experiments. The distribution function is roughly isotropic in the solar wind frame from solar wind thermal energies to 1.6 MeV. The ESP event studied (8/27/78) is superposed upon a more energetic particle event which was predominantly field-aligned and which was probably of solar origin. The observations suggest that the ESP population is accelerated directly out of the solar wind thermal population or its quiescent suprathermal tail by a stochastic process associated with shock wave disturbance. The acceleration mechanism is sufficiently efficient so that approximately 1% of the solar wind population is accelerated to suprathermal energies. These suprathermal particles have an energy density of approximately 290 eV cubic centimeters.

Keywords: ASTROPHYSICS

Type: Journal of Geophysical Research; 86; Feb. 1

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7

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Multiple spacecraft observations of interplanetary shocks ISEE three-dimensional plasma measurements (1983)

Russell, C. T. ; Zwickl, R. D. ; Gosling, J. T. ; [et al.]

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Publication Date: 2019-06-28

Description: ISEE 1 and ISEE 3 three-dimensional solar wind plasma measurements are used together with magnetic field measurements across five previously studied interplanetary shocks to test the accuracy of the mixed-mode shock-normal determination technique and to test whether the shock properties are best approximated with a ratio of specific heats of 5/3 or 2. In the shocks examined, the assumption that the velocity jump was along the normal provided an estimate of the shock normal within 15 deg of the best fit normal 50 percent of the time and within 50 deg, 90 percent of the time. The mixed-mode normals lay within 12 deg of the best fit normal 50 percent of the time and within 36 deg, 90 percent of the time. Part of this deviation may be due to differences in the orientation of the local normal from that of the average normal. Finally, the jump in plasma and field across the shock is better predicted from the Rankine-Hugoniot equations using a ratio of specific heats of 5/3 rather than 2.

Keywords: ASTROPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 88; 9941-994

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8

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Electron heating at interplanetary shocks (1982)

Gosling, J. T. ; Bame, S. J. ; Feldman, W. C. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Data for 41 forward interplanetary shocks show that the ratio of downstream to upstream electron temperatures, T/sub e/(d/u) is variable in the range between 1.0 (isothermal) and 3.0. On average, (T/sub e/(d/u) = 1.5 with a standard deviation, sigma e = 0.5. This ratio is less than the average ratio of proton temperatures across the same shocks, (T/sub p/(d/u)) = 3.3 with sigma p = 2.5 as well as the average ratio of electron temperatures across the Earth's bow shock. Individual samples of T/sub e/(d/u) and T/sub p/(d/u) appear to be weakly correlated with the number density ratio. However the amounts of electron and proton heating are well correlated with each other as well as with the bulk velocity difference across each shock. The stronger shocks appear to heat the protons relatively more efficiently than they heat the electrons.

Keywords: ASTROPHYSICS

Type: NASA-CR-172850 , NAS 1.26:172850 , DE83-006067 , LA-UR-83-259 , CONF-821159-1 , Solar Wind Conf.; Nov 01, 1982 - Nov 05, 1982; Woodstock, VT; United States

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9

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Suprathermal ions upstream from interplanetary shocks (1984)

Russell, C. T. ; Bame, S. J. ; Gosling, J. T. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Low energy (10 eV-30 keV) observations of suprathermal ions ahead of outward propagating interplanetary shock waves (ISQ) are reported. The data were taken with the fast plasma experiment on ISEE 1 and 2 during 17 events. Structure was more evident in the suprathermal ion distribution in the earth bow shock region than in the upstream region. Isotropic distributions were only observed ahead of ISW, although field alignment, kidney-bean distributions, ion shells in velocity space and bunches of gyrating ions were not. The data suggest that the solar wind ions are accelerated to suprathermal energies in the vicinity of the shocks, which feature low and subcritical Mach numbers at 1 AU.

Keywords: ASTROPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 89; 5409-541

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10

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Interplanetary magnetic flux - Measurement and balance (1992)

Mccomas, D. J. ; Gosling, J. T. ; Phillips, J. L.

In: Other Sources

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Publication Date: 2019-07-12

Description: A new method for determining the approximate amount of magnetic flux in various solar wind structures in the ecliptic (and solar rotation) plane is developed using single-spacecraft measurements in interplanetary space and making certain simplifying assumptions. The method removes the effect of solar wind velocity variations and can be applied to specific, limited-extent solar wind structures as well as to long-term variations. Over the 18-month interval studied, the ecliptic plane flux of coronal mass ejections was determined to be about 4 times greater than that of HFDs.

Keywords: ASTROPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 97; 171-177

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