Guide for Students
Information on X-Ray Class in Graduate School, Tsukuba University
Recommended Books, Literatures and Other Resources
Resources which might be useful to think about your research topic in X-ray science
Conference proceedings which our lab were in charge for editing and compiling (We will be pleased to send you a booklet and/or a CD, if necessary)
- Journal of Physics: Conference Series Volume 83 (October, 2007)
'Buried' Interface Science with X-rays and Neutrons 2007 (Edited by K. Sakurai)
KEK Proceedings 2006-3 (August, 2006)
'Buried' Interface Science with X-rays and Neutrons (Edited by K. Sakurai) (156MB)
X-Ray Class in Graduate School
Title
Diffraction : X-ray and electron microscopy I
Location
Room B107, in Laboratory of Advanced Research B ("Sougou B"), Tsukuba University
Time
15:10 ~ 16:30, Monday, 2nd term (from September to November)
Instructor
Professor Kenji Sakurai
Description
X-ray methods permit precise and quantitative determination of the atomic-scale structure of materials, and therefore it is extremely important for materials scientists to learn the skills involved in practical analysis. This course represents the first step for novices. The lectures will deal with the fundamentals of X-ray crystallography as well as the latest hot topics in materials analysis by X-rays. In order to make the learning process even more effective, practical problem-solving lessons are planned every week.
Contents
1 X-Ray Scattering by Atoms
2 Crystal Axes and the Reciprocal Lattice
3 Diffraction by a Small Crystal
4 The Integrated Intensity
5 The Powder Method
6 The Laue Method
7 Analysis of experimentally obtained XRD data
8 Diffraction by Imperfect Crystal (1)
9 Diffraction by Imperfect Crystal (2)
10 Analysis of experimentally obtained XRD data
Future of X-ray Physics
Language
As the course is mainly for non-Japanese students, only English language will be used. We welcome Japanese students as well, but note that you will be requested to report your solutions of the problems in English.
Textbook
B.E. Warren, "X-Ray Diffraction"
Other useful reference books
A Guinier, "X-Ray Diffraction in Crystals, Imperfect Crystals, and Amorphous Bodies"
J Als-Nielsen and D McMorrow, "Elements of Modern X-Ray Physics"
R. Tilley, "Crystals and Crystal Structures"
C. Giacovazzo, "Fundamentals of Crystallography"
Grade
Grades will be assigned based on the performance of the weekly homework and the presentation.
Recommended Books, Literatures and Other Resources
"Introduction to Solid State Physics" by Charles Kittel
Wiley; 8th edition (November 11, 2004), 704 pages
ISBN-10: 047141526X, ISBN-13: 978-0471415268
"Structure of Metals: Crystallographic Methods, Principles, and Data (International Series on Materials Science and Technology, V. 35)" by Charles Sanborn Barrett and T. B. Massalski
Pergamon Pr; 3rd revised edition, (June, 1980), 654 pages
ISBN-10: 008026171X, ISBN-13: 978-0080261713
"Principles of Optics: Electromagnetic Theory of Propagation, Interference and Diffraction of Light" by Max Born and Emil Wolf
Cambridge University Press; 7th edition (October 13, 1999) , 986 pages
ISBN-10: 0521642221, ISBN-13: 978-0521642224
"Fourier Transform and Its Applications" by Ronald Bracewell
McGraw-Hill College; 3 edition (November 1, 1999) , 496 pages
ISBN-10: 0071160434, ISBN-13: 978-0071160438
"X-ray Spectroscopy" by Leonid V. Azaroff
McGraw-Hill Inc.,US (February 1974), 576 pages
ISBN-10: 0070026742, ISBN-13: 978-0070026742
Addison Wesley ; 2nd edition (June, 1978), 555 pages
ISBN-10: 0201011743, ISBN-13: 978-0201011746 "The Optical Principles of the Diffraction of X-Rays" by R. W. James
Ox Bow Press (June 1982) , 664 pages
ISBN-10: 0918024234, ISBN-13: 978-0918024237 "Advances in X-Ray Analysis"
Proceedings of Annual Denver X-ray Conference
http://www.dxcicdd.com/advances/advances.htm "X-Ray Spectrometry"
Bimonthly international journal
http://www3.interscience.wiley.com/cgi-bin/jhome/1870/
JAPANESE
