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1

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Properties of Magnetohydrodynamic Turbulence in the Solar Wind as Observed (1995)

Horbury, T. S. ; Roberts, D. A ; Balogh, A. ; [et al.]

In: Other Sources

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Publication Date: 2018-06-08

Description: This is a discussion of the opportunites provided by Ulysses mission to study.

Keywords: Solar Physics

Type: Geophysical Research Letters

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2

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Solar Wind Turbulence as Observed by the Ulysses Spacecraft: Power Spectra and Cross Spectra (1994)

Ruzmaikin, A. ; Goldstein, M. L. ; Smith, E. J. ; [et al.]

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Publication Date: 2018-06-08

Keywords: Solar Physics

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3

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A transient solar wind disturbance observed at both low and high heliographic latitudes (1995)

Phillips, J. L. ; Lepping, R. P. ; Gosling, J. T. ; [et al.]

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Publication Date: 2011-08-24

Description: Ulysses observations have revealed a new class of forward-reverse shock pairs in the solar wind that appears to be restricted to high heliographic latitudes. Shock pairs in this new class of events are produced by over-expansion (i.e., expansion driven by a high internal pressure) of coronal mass ejections, CMEs, that have speeds comparable to that of the surrounding solar wind plasma. Here we compare low- and high-latitude observations of an event observed both near Earth by IMP 8 and at high latitudes by Ulysses. At the time of these observations Ulysses was at 3.53 AU and was situated 47.2 deg south and 11.4 deg west of Earth (in the sense of planetary motion about the Sun). A fast CME that departed from the Sun on February 20, 1994 produced both a major (forward) shock wave disturbance in the ecliptic plane at 1 AU (and a large geomagnetic storm) and a forward reverse shock pair associated with over-expansion of the CME at high heliographic latitudes. The combined measurements provide a graphic illustration of how the same fast CME can produce totally different types of disturbances at low and high latitudes. Differences in the disturbances generated by the CME at high and low latitudes are due primarily to the different speeds initially prevailing in the ambient solar wind ahead of it. These observations are consistent with the results of simple numerical simulations of the event.

Keywords: Solar Physics

Type: International Solar Wind 8 Conference; 98; NASA-CR-199940

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4

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Comparing Ulysses wind speed with coronal flux-tube expansion factor (1995)

Bame, S. J. ; Goldstein, B. E. ; Sheeley, N. R., Jr. ; [et al.]

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Publication Date: 2011-08-24

Description: We have been comparing measurements of solar wind speed at the Ulysses spacecraft with coronal flux-tube expansion rates, derived from photospheric field measurements using a current-free coronal model. The large-scale patterns of derived speed have continued to reproduce the observed patterns from launch through south polar passage to the present 40S latitude of the spacecraft. The fastest non-transient wind speeds of approx. 860 km/s were encountered at midlatitudes en route to the south pole, rather than during polar passage when the peak speeds were approx. 820 km/s. Although this result is in qualitative agreement with the idea that the wind speed is controlled by the coronal flux-tube expansion rate, the 40 km/s difference is significantly smaller than the 100-150 km/s difference based on our in-ecliptic calibration. This paper will summarize our attempts to resolve this discrepancy and will show the observational status of our coronal/interplanetary comparison at the time of the meeting.

Keywords: Solar Physics

Type: ; 63

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5

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Helium abundance variations in the solar wind: Observations from Ulysses (1995)

Gosling, J. T. ; Barraclough, B. L. ; Goldstein, B. E. ; [et al.]

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Publication Date: 2011-08-24

Description: The abundance of helium in the solar wind averages approximately 4% but has been observed to vary by more than two orders of magnitude from 0.1 to 30%. Physical processes responsible for this variability are still not clearly understood. Previous work has shown a correlation between low He abundance and coronal streamer plasma and between high He abundance and coronal mass ejections (CMEs). We now have out-of-ecliptic data on helium in the solar wind from the plasma experiment aboard Ulysses. Tentative results show that the average high-latitude helium concentration is comparable to the in-ecliptic value for the present phase of the solar cycle, that excursions of the hour-averaged abundance very seldom fall outside the range 2.5 to 6.5%, and that there seems to be very little abundance enhancement associated with CMEs encountered at latitudes greater than 30 deg as opposed to the situation commonly encountered with in-ecliptic CMEs. In addition, preliminary observations of a single CME by both ISEE (in-ecliptic) and Ulysses (out-of-ecliptic) show a considerable He enhancement at ISEE with little or no perturbation of the average value at Ulysses' location. This paper will first present new results from the Ulysses mission up to the time of the meeting on the average abundance of helium in the solar wind as a function of spacecraft position, and will then focus on the out-of-ecliptic results including latitudinal abundance variations and observations of abundance enhancements (or lack thereof) in high-latitude CMEs.

Keywords: Solar Physics

Type: International Solar Wind 8 Conference; 73; NASA-CR-199940

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6

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The Solar Wind-Inner Heliosphere (1998)

Goldstein, B. E. ; McComas, D. J. ; Suess, S. T. ; [et al.]

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Publication Date: 2011-08-23

Description: The Solar wind in the inner heliosphere, inside approximately 5 AU, has been almost fully characterized by the addition of the high heliographic latitude Ulysses mission to the many low latitude inner heliosphere missions that preceded it. The two major omissions are the high latitude solar wind at solar maximum, which will be measured during the second Ulysses polar passages, and the solar wind near the Sun, which could be analyzed by a Solar Probe mission. Here, existing knowledge of the global solar wind in the inner heliosphere is summarized in the context of the new results from Ulysses.

Keywords: Solar Physics

Type: Space Science Reviews (ISSN 0038-6308); Volume 83; 75-86

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7

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The Solar Wind (1998)

Goldstein, B. E.

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Publication Date: 2011-08-23

Description: The first evidence of the solar wind was provided through observations of comet tail deflections by L. Biermann in 1951. A cometary ion tail is oriented along the difference between the cometary and solar wind velocities, whereas the dust tail is in the antisunward direction; the ion tail directions demonstrated the existence of an outflow of ionized gas from the Sun (the solar wind) and allowed estimates of solar wind speed. Spacecraft observations have now established that at 1 AU the solar wind has a typical ion number density of about 7 /cc and is composed by number of about 95% protons and 5% Helium, with other minor ions also present. The solar wind as observed at 1 AU in the ecliptic has speeds typically in the range 300-700 km/ s. At such speeds ions travel from the Sun to 1 AU in from 2.5 to 6 days. The impact of the solar wind on planets with magnetic fields (Earth, Jupiter, Saturn, Uranus, Neptune) causes phenomena such as magnetospheres, aurorae, and geomagnetic storms, whereas at objects lacking magnetospheres (Mars, Venus, comets), atmospheric neutrals undergo charge exchange and are picked up by the solar wind flow. The solar wind also shields the Earth from low energy cosmic rays, and is responsible for the existence of the anomalous component of the cosmic rays a low energy component that is created locally rather than in the galaxy. Presented here is a brief introduction to the solar wind and a description of some current topics of research. Solar wind properties vary a great deal due to the changing magnetic structure on the Sun.

Keywords: Solar Physics

Type: From the Sun: Auroras Magnetic Storms, Solar Flares, Cosmic Rays; 73-79; LC-98-46324

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8

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The May 1997 SOHO-Ulysses Quadrature (2000)

Goldstein, B. E. ; Romoli, M. ; Poletto, G. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: We present results from the May 1997 SOHO-Ulysses quadrature, near sunspot minimum. Ulysses was at 5.1 AU, 100 north of the solar equator, and off the east limb. It was, by chance, also at the very northern edge of the streamer belt. Nevertheless, SWOOPS detected only slow, relatively smooth wind and there was no direct evidence of fast wind from the northern polar coronal hole or of mixing with fast wind. LASCO images show that the streamer belt at 10 N was narrow and sharp at the beginning and end of the two week observation interval, but broadened in the middle. A corresponding change in density, but not flow speed, occurred at Ulysses. Coronal densities derived from UVCS show that physical parameters in the lower corona are closely related to those in the solar wind, both over quiet intervals and in transient events on the limb. One small transient observed by both LASCO and UVCS is analyzed in detail.

Keywords: Solar Physics

Format: application/pdf

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Overview

9

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Under the Weather: Space Weather. The Magnetic Field of the Heliosphere (2000)

Goldstein, Melvyn ; Roberts, Aaron

In: CASI

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Publication Date: 2013-08-31

Description: Normally, only people in the far north can enjoy the dancing beauty of the aurora borealis; however, an intense collision of charged solar particles with the Earth's magnetic field can magnify the Northern Lights so much that they are visible in the southern United States. Behind the light show lies enough flux of energetic particles carried by solar wind to render our planet uninhabitable. The Earth's magnetic field, also known as the magnetosphere, is the only thing that shields us from the Sun. Even the magnetosphere cannot fully guard us from the wrath of the Sun. In March 1989, a powerful solar flare hit Earth with such energy that it burned out transformers in Quebec's electrical grid, plunging Quebec and the eastern United States into darkness for more than 9 hours. Northern lights and energy grid overloads are not the only ways that a solar wind can affect us. A solar storm in July 1999 interrupted radio broadcasts. Solar activity can disorient radars and satellite sensors, break up cell phone connections, and threaten the safety of astronauts. A large bombardment of solar particles can even reduce the amount of ozone in the upper atmosphere. Magnetohydrodynamics (MHD), the study of magnetic fields in magnetized plasmas, can help scientists predict, and therefore prepare for, the harmful side effects of solar weather in the magnetosphere.

Keywords: Solar Physics

Type: 2000 NCCS Highlights: Enabling NASA Earth and Space Sciences; 66-71

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10

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Hybrid Simulations of Interstellar Pick-up Ion Acceleration at the Solar Wind Termination Shock (1994)

Liewer, P. C. ; Goldstein, B. E. ; Rath, Sharadini

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Publication Date: 2018-06-08

Description: Hybrid simulations have been used to study self consistently the acceleration of interstellar pick-up ions at the solar wind termination shock. Results are presented form one-dimensional simulations of high Mach number oblique shocks with a 10% population of Interstella pick-up hydrogen.

Keywords: Solar Physics

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