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X-ray scattering by solidsCooper, Malcolm January 1967 (has links)
No description available.
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Projectile x-ray cross sections for fully stripped fluorine ions on argonPettus, Edward William January 2011 (has links)
Digitized by Kansas Correctional Industries
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Study of Kα X rays from Al, Sc, and Ti following bromine-ion bombardmentJamison, Keith A January 2011 (has links)
Digitized by Kansas Correctional Industries
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New X-ray counter spectrometer techniquesLang, Andrew January 1953 (has links)
No description available.
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The absorption of γ raysHulme, Henry Rainsford January 1932 (has links)
No description available.
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K-shell Auger and X-ray rates, transition energies, and fluorescence yields for multiply ionized neon, oxygen, and nitrogenHein, Michael A. January 2010 (has links)
Digitized by Kansas Correctional Industries
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Studies of cosmic ray composition using a hybrid fluorescence detectorSimpson, K. M. (Kenneth Mark) January 2001 (has links) (PDF)
Includes bibliographical references (leaves 174-188). Describes several aspects of cosmic ray composition studies using the Utah Fly's Eye and High Resolution Fly's Eye detectors.
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Application of the Maximum Entropy Method to X-Ray Profile AnalysisJanuary 1999 (has links)
The analysis of broadened x-ray diffraction profiles provides a useful insight into the structural properties of materials, including crystallite size and inhomogenous strain. In this work a general method for analysing broadened x-ray diffraction profiles is developed. The proposed method consists of a two-fold maximum entropy (MaxEnt) approach. Conventional deconvolution/inversion methods presently in common use are analysed and shown not to preserve the positivity of the specimen profile; these methods usually result in ill-conditioning of the solution profile. It is shown that the MaxEnt method preserves the positivity of the specimen profile and the underlying size and strain distributions, while determining the maximally noncommital solution. Moreover, the MaxEnt method incorporates any available a priori information and quantifies the uncertainties of the specimen profile and the size and strain distributions. Numerical simulations are used to demonstrate that the MaxEnt method can be applied at two levels: firstly, to determine the specimen profile, and secondly to calculate the size or strain distribution, as well as their average values. The simulations include both sizeand strain-broadened specimen profiles. The experimental conditions under which the data is recorded are also simulated by introducing instrumental broadening, a background level and statistical noise to produce the observed profile. The integrity of the MaxEnt results is checked by comparing them with the traditional results and examining problems such as deconvolving in the presence of noisy data, using non-ideal instrument profiles, and the effects of truncation and background estimation in the observed profile. The MaxEnt analysis is also applied to alumina x-ray diffraction data. It is found that the problems of determining the specimen profile, column-length and strain distributions can be solved using the MaxEnt method, with superior results compared with traditional methods. Finally, the issues of defining the a priori information in each problem and correctly characterising the instrument profile are shown to be critically important in profile analysis.
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Balloon-borne X-ray observations of the southern skyThomas, Richard Murison January 1971 (has links)
vi, 165 leaves : ill., appendices / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.1972) from the Dept. of Physics, University of Adelaide
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Recherches sur les rayons [alpha] du polonium : oscillation de parcours, vitesse d'émission, pouvoir ionisant /Joliot-Curie, Irène, January 1925 (has links)
Thesis (Ph. D.)--Université de Paris, 1925. / At head of title: Series A. No. 1004 No d'ordre 1839. Thèses présentée a la faculté de sciences pour obtenir le grade le docteur ès sciences physiques. Printed paper cover.
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