Full Product Details
Author: Emil Zolotoyabko
Publisher: De Gruyter
Imprint: De Gruyter
Weight: 0.504kg
ISBN: 9783111139692
ISBN 10: 3111139697
Pages: 298
Publication Date: 19 June 2023
Audience:
Professional and scholarly
,
Professional & Vocational
Format: Paperback
Publisher's Status: Active
Availability: Available To Order
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Reviews
""The author has written an introductory textbook on light and X-ray optics with applications for optical devices and microscopic imaging. This text masterfully integrates light and X-ray optics and could benefit a wide readership of advanced undergraduate and graduate students as well as researchers in material or physical chemistry and biomedical engineering."" Axel Mainzer Koenig in: https: //www.optica-opn.org/home/book_reviews/2023/1223/light_and_x-ray_optics_refraction_reflection_diffr/ (24.05.2024)
"""The author has written an introductory textbook on light and X-ray optics with applications for optical devices and microscopic imaging. This text masterfully integrates light and X-ray optics and could benefit a wide readership of advanced undergraduate and graduate students as well as researchers in material or physical chemistry and biomedical engineering."" Axel Mainzer Koenig in: https: //www.optica-opn.org/home/book_reviews/2023/1223/light_and_x-ray_optics_refraction_reflection_diffr/ (24.05.2024)"
Author Information
Emil Zolotoyabko is Professor Emeritus in the Department of Materials Science and Engineering of the Technion-Israel Institute of Technology. For six years he served as Faculty Dean and for four years as a member of the Technion’s Standing Committee. He was awarded the Schlesinger Prize for Encouragement of Research, the Henry Taub Prize for Excellence in Research, the Technion Excellence in Teaching, and held the Abraham Tulin Academic Chair. Emil Zolotoyabko has authored more than 200 scientific publications, four books and four chapters in books devoted to the development of new X-ray diffraction methods and their applications for studying the structure and dynamical characteristics of different materials systems. Main scientific achievements include: direct wave summation method in X-ray diffraction simulations; development of Mössbauer diffraction to study low-frequency lattice dynamics by inelastic scattering in crystals at phase transitions; fast stroboscopic X-ray diffraction and imaging techniques for investigating crystal dynamics on a nanosecond time scale; energy-variable X-ray diffraction for microstructural characterization with sub-micron spatial resolution; measurement of the speed of X-rays; discovery by high-resolution X-ray diffraction of the protein-associated anisotropic lattice distortions in biocomposites grown by living organisms.
