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Crystallography is an interdisciplinary science covering a wide
area, from biology to earth sciences, mathematics and materials
science. Its role is growing, owing to the contribution
crystallography can offer to the understanding of such diverse
fields as biological structures, high-temperature superconductors,
mineral properties, and phase transitions. The book describes both
the theoretical bases and applications of different areas
interacting with crystallography. As with the first and second
editions, it is organized as a collection of chapters written by
recognized specialists, with all contributions being harmonized
into a unified whole. The main text is devoted to the presentation
of basics; the appendices deal with specialist aspects. In this
third edition topics have been updated so as to document the
present state of the art: emphasis is placed upon areas of current
research.
To facilitate learning and make teaching more effective, new
illustrations have been introduced. As with the second edition, a
software package is included via the book's OUP web site: modern
graphics will help users to better understand the basics of this
science via three-dimensional images, simulation of experiments,
and exercises.
Scientific techniques developed in materials science offer
invaluable information to archaeology, art history, and
conservation. A rapidly growing number of innovative methods, as
well as many established techniques, are constantly being improved
and optimized for the analysis of cultural heritage materials. The
result is that on the one hand more complex problems and questions
can be confronted, but on the other hand the required level of
technical competence is widening the existing cultural gap between
scientists and end users, such as archaeologists, museum curators,
art historians, and many managers of cultural heritage who have a
purely humanistic background.
The book is intended as an entry-level introduction to the methods
and rationales of scientific investigation of cultural heritage
materials, with emphasis placed on the analytical strategies, modes
of operation, and resulting information rather than on
technicalities. The extensive and updated reference list should be
a useful starting point for further reading. Students and
researchers from the humanities approaching scientific
investigations should find it useful, as well as scientists
applying familiar techniques and methods to unfamiliar problems
related to cultural heritage.
Crystallography is an interdisciplinary science covering a wide
area, from biology to earth sciences, mathematics and materials
science. Its role is growing, owing to the contribution
crystallography can offer to the understanding of such diverse
fields as biological structures, high-temperature superconductors,
mineral properties, and phase transitions. The book describes both
the theoretical bases and applications of different areas
interacting with crystallography. As with the first and second
editions, it is organized as a collection of chapters written by
recognized specialists, with all contributions being harmonized
into a unified whole. The main text is devoted to the presentation
of basics; the appendices deal with specialist aspects. In this
third edition topics have been updated so as to document the
present state of the art: emphasis is placed upon areas of current
research.
To facilitate learning and make teaching more effective, new
illustrations have been introduced. As with the second edition, a
software package is included via the book's OUP web site: modern
graphics will help users to better understand the basics of this
science via three-dimensional images, simulation of experiments,
and exercises.
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