000			02143nam a2200265Ia 4500
003			OSt
005			20250715110056.0
008			220909b |||||||| |||| 00| 0 eng d
020			_a9783527335619
037			_cTextbook
040			_aCSL _beng _cCSL
041			_aeng
084			_aC53:55 Q4 TE _qCSL
100			_aZolotoyabko, Emil _eauthor. _9715255
245		0	_aBasic concepts of X-ray diffraction
260			_aWeinheim : _bWiley, _c2014.
300			_axii, 297p. _b: ill.
500			_aReferences 285-290p.; Index 291-297p.
520			_aAuthored by a university professor deeply involved in X-ray diffraction-related research, this textbook is based on his lectures given to graduate students for more than 20 years. It adopts a well-balanced approach, describing basic concepts and experimental techniques, which make X-ray diffraction an unsurpassed method for studying the structure of materials. Both dynamical and kinematic X-ray diffraction is considered from a unified viewpoint, in which the dynamical diffraction in single-scattering approximation serves as a bridge between these two parts. The text emphasizes the fundamental laws that govern the interaction of X-rays with matter, but also covers in detail classical and modern applications, e.g., line broadening, texture and strain/stress analyses, X-ray mapping in reciprocal space, high-resolution X-ray diffraction in the spatial and wave vector domains, X-ray focusing, inelastic and time-resolved X-ray scattering. This unique scope, in combination with otherwise hard-to-find information on analytic expressions for simulating X-ray diffraction profiles in thin-film heterostructures, X-ray interaction with phonons, coherent scattering of Mossbauer radiation, and energy-variable X-ray diffraction, makes the book indispensable for any serious user of X-ray diffraction techniques.
650			_a Acoustic waves _9815624
650			_a Inelastic scattering _9815625
650			_aDarwin approach _9815626
942			_hC53:55 Q4 TE _cTB _2CC _n0
999			_c16653 _d16653