e-book Mathematical Techniques in Crystallography and Materials Science

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In the course of 30 years as a practicing crystallographer I have frequently been faced with the necessity of finding out a little bit about some general branch of.
Table of contents

Pages Symmetry of Finite Objects. Symmetry of Infinitely Repeated Patterns.

Freely available

Data Fitting. Estimation of Uncertainty. Significance and Accuracy.


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Constrained Crystal Structure Refinement. Back Matter Pages About this book Introduction In the course of 30 years as a practicing crystallographer I have frequently been faced with the necessity of finding out a little bit about some general branch of mathematics with which I was previously unfamiliar.

Mathematical Techniques in Crystallography and Materials Science - Edward Prince - Google книги

Under these circumstances I have usually followed the common practice of seeking out some colleague who would be expected to have a thorough knowledge of the subject. I would then find myself faced either with an involved lecture in which the colleague would attempt to distill a lifetime of experience into a form that was comprehensible to a novice with a very different background, or with a book about the subject, written by a specialist, that contained far more information than I really wanted to know. Without mathematical methods it would not be possible to identify such highly complex structures.


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  • However, the influence of mathematics dates back a lot further. For example, it allowed for the calculation of the platonic solids and enabled Kepler to examine snowflakes.

    Crystallography matters ... more!

    Mathematical models are also required to explain the non-periodic quasicrystals, the discovery of which was awarded with the Nobel Prize in It is not only essential to document information on crystals in professional databases. Now more than ever before, targeted searching, analysis and post-processing of complex information also requires suitable tools that are state of the art.

    The brochure depicts the search and analysis features of the above mentioned databases with examples.

    XRD X-ray diffraction worked example problem

    The printed brochure can be ordered free of charge with ruediger. Press contact: Dr.

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    FIZ Karlsruhe — Leibniz Institute for Information Infrastructure is a non-profit corporation and the largest non-university institution for information infrastructure in Germany. Our mission is to supply scientists and companies with professional research and patent information as well as to develop innovative information services. FIZ Karlsruhe strives to strengthen the transfer of knowledge in Germany and abroad and to support the promotion of innovation.