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Topological structure of the magnetic solar corona /Maclean, Rhona Claire. January 2007 (has links)
Thesis (Ph.D.) - University of St Andrews, January 2007.
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Numerical simulations of radiation and heating from non-thermal electrons in solar flaresPollock, Jennifer A. January 2008 (has links)
Thesis (Ph.D.) - University of Glasgow, 2008. / Ph.D. thesis submitted to the Department of Physics and Astronomy, Faculty of Physical Sciences, University of Glasgow, 2008. Includes bibliographical references.
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Sun Zhongshan xian sheng ge ming ren ge de xing cheng (1866-1894)Nie, Chongzhang. January 1900 (has links)
Thesis (M.S.)--Taiwan da xue. / Reproduced from typescript. Bibliography: p. 84-91.
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Sun Yirang zhi sheng ping yu xue shu si xiangChen, Zhenfeng. January 1900 (has links)
Thesis (M.A.)--Guo li Taiwan da xue, 1976. / Reproduced on double leaves from typescript. Bibliography : p. 183-189.
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Sun Wu bing fa yu Sun Bin bing fa yan jiuKang, Shizhen. January 1900 (has links)
Fu ren da xue Zhongguo wen xue yan jiu suo shuo shi lun wen. / Bibliography: p. 213-214.
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On the physical and chemical composition of the sun ...Keller, Geoffrey, January 1948 (has links)
Doctoral dissertation--Columbia University.
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Sun Yat-Sen and American policy towards revolutionary ChinaLehmann, Frederick Louis, January 1961 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1961. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 192-202).
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Die religionsphilosophie kaiser Julians in seinen Reden auf den König Helios und die Göttermutter. Erstes kapitel: König Helios. /Mau, Georg, January 1906 (has links)
Thesis--Kaiser-Wilhelms Universität, Strassburg. / "Vollständig erscheint die Arbeit demnächst im Verlage von B.G. Teubner." Bibliographical footnotes.
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Transient Cosmic-ray Events beyond the Heliopause: Interpreting Voyager-1 ObservationsKóta, J., Jokipii, J. R. 25 April 2017 (has links)
In 2013 March and 2014 May, Voyager-1 (V1) experienced small but significant increases in the flux of galactic cosmic rays (GCRs) in the hundred MeV/n range. Additionally, V1 also saw episodic depletion of GCR flux around perpendicular pitch angles. We discuss the pitch-angle distribution and the time profiles of these events. In a previous paper, we interpreted the 2013 "bump" as the GCRs remotely sensing a shock that reached the magnetic field line passing through V1: particles gained energy as they were reflected on the approaching region of the stronger magnetic field of the disturbance. Here, we point out that energy gain is not restricted to reflected particles -GCRs passing through the disturbance also gain energy. The effect should be present in a broad range of pitch angles with the maximum increase of GCR intensity predicted to occur at the critical reflection angle. In this paper, the shock is not step-like, but a gradual increase of the magnetic field strength, B, taking a few days, in agreement with V1 measurements. This smoothens the profile of the predicted bump in the GCR flux. We also address the linear episodic decreases seen around perpendicular pitch angles. These events are interpreted in terms of adiabatic cooling behind the shock due to the slow weakening of B. We present simple numerical model calculations and find that a gradual shock followed by a slow decrease of B, as observed, may account for both the episodic increases and the anisotropic depletion of GCR fluxes.
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Characterizing the Particle Size Distribution in Saturn's Rings Using Cassini UVIS Stellar Occultation DataEckert, Stephanie 01 January 2022 (has links) (PDF)
NASA's Cassini mission to Saturn revolutionized modern understanding of the planet's vast and intricate ring system. We use stellar occultation data from Cassini's UVIS High Speed Photometer (HSP) to characterize the particle size distribution in the rings with two methods. First, we discern the sizes of the smallest particles at ring edges by forward-modeling observed diffraction signatures which appear as spikes in the signal, the shape and amplitude of which depends on the size and abundance of the smallest particles. We then probe the upper end of the size distribution using occultation statistics. Although the distribution of photon counts in the absence of ring particles follows Poisson statistics for which the variance is equal to the mean, random variations in the sizes and abundance of particles introduce excess variance. Previous studies have interpreted excess variance in stellar occultation data in terms of an effective particle size. The assumption of small particles is invalid in Saturn's A and B rings where ring particles cluster together into elongated structures called self-gravity wakes. We calculate the statistical moments within spiral density waves, undulating structures excited throughout Saturn's rings at locations of resonance with satellites. In our diffraction analysis, we find more detections of diffraction at edges near the outer A and B rings than at edges within the C ring and Cassini Division, consistent with the prediction that edges directly perturbed by satellites have a greater population of sub-cm particles than edges confined by other mechanisms. In our moments analysis, we find that the granola bar model for regularly spaced wakes cannot match the observed statistics of both density wave troughs and peaks with a single set of parameters S and W, which may indicate that wakes are more opaque in the wave crests due to compression than they are in the troughs.
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