Global ETD Search

11	A study of fermi acceleration of suprathermal solar wind ions / Freeman, Theodore J., January 1998 (has links) Thesis (Ph. D.)--University of Washington, 1998. / Vita. Includes bibliographical references (p. [89]-94). Solar wind. Ions.
12	Global modeling of the average response of the magnetosphere to varying solar wind conditions / Elsen, Ronald. January 1996 (has links) Thesis (Ph. D.)--University of Washington, 1996. / Vita. Includes bibliographical references (pages [181]-212). Magnetosphere. Solar wind.
13	Shock waves in an anisotropic plasma Neubauer, F. M. January 1900 (has links) Diss. - Braunschweig Technical University, 1969. / Translation of Stosswellen in einem anisotropen plasma. Bibliography: p. 128-133. Shock waves. Solar wind.
14	The position of the solar wind shock boundary Hundhausen, A. J., January 1965 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1965. / Abstracted in Dissertation abstracts, v. 25 (1965) no. 10, p. 6000-01. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references. Solar wind. Shock waves.
15	Implications of self-consistent one-dimensional hybrid code simulations for post reconnection geometries Richardson, Alan January 1993 (has links) No description available. 530.44 Solar wind; Magnetosphere
16	Optical and radar studies of the nightide auroral ionosphere Buchan, Maria Jane January 1999 (has links) No description available. 551.5 Solar wind-magnetosphere coupling
17	First order anisotropies of 1MeV ions in the Jovian magnetosphere Laxton, Nicholas Frederick January 1997 (has links) No description available. 523.01 Solar wind; Voyager spacecraft
18	A study of nitrogen isotopic systematics in lunar soils and breccias Brilliant, Debra January 1999 (has links) A variety of lunar soils (bulk soils, grain size fractions and mineral separates) and regolith breccias are studied for nitrogen abundance and isotopic composition. in order to investigate the isotopic variation in the lunar regolith and to constrain the origin of the nitrogen. The lunar soils and breccias are analysed using a high sensitivity static-vacuum mass spectrometer. capable of measuring nanogram quantities of nitrogen with a δ<sup>15</sup>N precision of ±0.5‰. In addition to nitrogen abundance measurements, conjoint carbon and argon abundances (allthough the latter are semi-quantitative) are also measured. Lunar soils and breccias are analysed by stepped combustion and pyrolysis extraction. Typically employing temperature resolution of 25-50°C. However, some soils and breccias are analysed by high-resolution extraction using temperature increments of 10°C. constituting the highest resolution studies performed to date. The high-resolution extractions of lunar soils and breccias has confirmed the existence of the heavy-light-heavy-light-heavy (W-shaped) isotopic profile observed by previous workers for pyrolysis extractions of lunar breccias. The current study has confirmed that the W-shaped profile is restricted to pyrolysis extractions, but is present in both soils and breccias. The well documented heavy-light-heavy (V-shaped) isotopic profile is observed in stepped combustion extractions. The nitrogen in the lunar regolith has been shown to be of both solar and non-solar origin. The former is confirmed from the solar-like C/N ratios in lunar soils. and the latter is confirmed from the excess N/<sup>36</sup>Ar ratio. between 5 and 39 times the solar value. Although neither nitrogen source is believed to be a minor component, the solar wind is believed to contribute -30% of the total nitrogen, although the relative proportions of solar and non-solar nitrogen are not well constrained. The surface-correlation of the low temperature nitrogen release (LTN), from the <10μm fraction from soil A12023. has enabled calculation of the isotopic composition of this component with δ<sup>15</sup>N = +35.3 ±3.6‰. It is believed that this value is representative of the isotopic composition of the recent solar wind. Furthermore, the absence of isotopically light nitrogen in agglutinates separated from A12073. and the increasing contribution of high temperature nitrogen (HTN) with increasing grain size from the same soil. has suggested that the volume-correlated nitrogen is released at temperatures ≥1050°C. This is believed to be representative of the ancient solar wind, and has a mean δ<sup>l5</sup>N = +77.0 ± 6.0‰. This work has shown that the maximum secular variation of <sup>15</sup>N/<sup>14</sup>N in the lunar regolith is -2.8%. significantly lower than previous estimates. The low temperature. isotopically heavy nitrogen component. NLT. and the isotopically light nitrogen components. NMT and NHT (although the latter is only observed during stepped pyrolysis extractions). display a <sup>l5</sup>N/<sup>l4</sup>N variation of 38%. This cannot be accounted for by a secular variation of <sup>15</sup>N/<sup>l4</sup>N in this work. The origin of NLT is not well constrained. but may be due to re-implantation of atmospheric nitrogen. or fractionation of solar wind gases during the formation of amorphous rims around soils grains. A proportion 1-3% I of NHT has been observed in soil A12023. with δ<sup>15</sup>N = -186‰, the lightest observed in a lunar soil. The similarity of this value with that obtained for lunar breccia A79035. has suggested the possibility of a relict component. implanted prior to breccia consolidation. No evidence of presolar grains could be identified in A79035, although there is some evidence for amorphous carbon. This may also be associated with the presence of fine-grained metallic iron as a significant proportion of this in lunar soils is believed to originate from meteorite contamination. 551.9 Solar wind; Isotopic variation
19	Variations of solar wind parameters over a solar cycle : expectations for NASA's Solar TErrestrial RElations Observatory (STEREO) mission / Walker, Catherine C. January 2007 (has links) (PDF) Undergraduate honors paper--Mount Holyoke College, 2007. Dept. of Astronomy. / Includes bibliographical references (leaves i-vi).
20	Nature of Stochastic Ion Heating in the Solar Wind: Testing the Dependence on Plasma Beta and Turbulence Amplitude Vech, Daniel, Klein, Kristopher G., Kasper, Justin C. 16 November 2017 (has links) The solar wind undergoes significant heating as it propagates away from the Sun; the exact mechanisms responsible for this heating are not yet fully understood. We present for the first time a statistical test for one of the proposed mechanisms: stochastic ion heating. We use the amplitude of magnetic field fluctuations near the proton gyroscale as a proxy for the ratio of gyroscale velocity fluctuations to perpendicular (with respect to the magnetic field) proton thermal speed, defined as epsilon(p). Enhanced proton temperatures are observed when epsilon(p) is larger than a critical value (similar to 0.019-0.025). This enhancement strongly depends on the proton plasma beta (beta parallel to(p)); when beta parallel to(p) << 1 only the perpendicular proton temperature T-perpendicular to increases, while for beta parallel to(p) similar to 1 increased parallel and perpendicular proton temperatures are both observed. For epsilon(p) smaller than the critical value and beta parallel to(p) << 1 no enhancement of Tp is observed, while for beta parallel to(p) similar to 1 minor increases in T-parallel to are measured. The observed change of proton temperatures across a critical threshold for velocity fluctuations is in agreement with the stochastic ion heating model of Chandran et al. We find that epsilon(p) > epsilon(crit) in 76% of the studied periods, implying that stochastic heating may operate most of the time in the solar wind at 1 au. plasmas solar wind turbulence waves

Search results