Verfügbarkeit: Elementary scattering theory :

Elementary scattering theory :: for X-ray and neutron users /

The opportunities for doing scattering experiments at synchrotron and neutron facilities have grown rapidly in recent years and are set to continue to do so into the foreseeable future. This text provides a basic understanding of how these techniques enable the structure and dynamics of materials to...

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1. Verfasser:	Sivia, D. S.
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Oxford ; New York : Oxford University Press, 2011.
Schlagworte:	Neutrons > Scattering. X-rays > Scattering. Neutrons > Diffusion. Rayons X > Diffusion. x-ray scattering. SCIENCE > Physics > Nuclear. Neutrons > Scattering X-rays > Scattering scattering experiments, synchrotron facilities, neutron facilities, dynamics of materials, structure of materials
Online-Zugang:	Volltext
Zusammenfassung:	The opportunities for doing scattering experiments at synchrotron and neutron facilities have grown rapidly in recent years and are set to continue to do so into the foreseeable future. This text provides a basic understanding of how these techniques enable the structure and dynamics of materials to be studied at the atomic and molecular level. Although mathematics cannot be avoided in a theoretical discussion, the aim has been to write a book that most scientists will still findapproachable. To this end, the first two chapters are devoted to providing a tutorial background in the mathematics.
Beschreibung:	1 online resource (xii, 201 pages) : illustrations (chiefly color)
Bibliographie:	Includes bibliographical references (pages 193-196) and index.
ISBN:	9780191004773 0191004774 1299617069 9781299617063 9780191775116 0191775118

Internformat

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520			\|a The opportunities for doing scattering experiments at synchrotron and neutron facilities have grown rapidly in recent years and are set to continue to do so into the foreseeable future. This text provides a basic understanding of how these techniques enable the structure and dynamics of materials to be studied at the atomic and molecular level. Although mathematics cannot be avoided in a theoretical discussion, the aim has been to write a book that most scientists will still findapproachable. To this end, the first two chapters are devoted to providing a tutorial background in the mathematics.
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505	8		\|a 8.3 A quantum transitions approach9 Examples of inelastic scattering; 9.1 Compton scattering; 9.2 Lattice vibrations; 9.3 Molecular spectroscopy; A: Discrete Fourier transforms; B: Resonant scattering and absorption; References; Index; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; Q; R; S; T; U; V; W; X; Y
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contents	Cover; Contents; I: Some preliminaries; 1 Studying matter at the atomic and molecular level; 1.1 Length scales and logarithmic axes; 1.2 Resolution, magnification and microscopy; 1.3 Structure, dynamics and spectroscopy; 1.4 Atomic building blocks and interactions; 1.5 Energy, length and temperature scales; 1.6 A table of useful constants; 2 Waves, complex numbers and Fourier transforms; 2.1 Sinusoidal waves; 2.2 Complex numbers; 2.3 Fourier series; 2.4 Fourier transforms; 2.5 Fourier optics and physical insight; 2.6 Fourier data analysis; 2.7 A list of useful formulae; II: Elastic scattering 3 The basics of X-ray and neutron scattering3.1 An idealized scattering experiment; 3.2 Scattering by a single fixed atom; 3.3 Scattering from an assembly of atoms; 3.4 X-rays and synchrotron sources; 3.5 Reactors and pulsed neutron sources; 4 Surfaces, interfaces and reflectivity; 4.1 Reflectivity and Fourier transforms; 4.2 Reflectivity and geometrical optics; 4.3 X-rays, neutrons and other techniques; 5 Small-angle scattering and the big picture; 5.1 Diffraction and length scales; 5.2 Size, shape and molecular form factors; 5.3 Assemblies and correlations; 5.4 Pair-distribution function 5.5 Contrast matching6 Liquids and amorphous materials; 6.1 The middle phase of matter; 6.2 Radial distribution functions; 6.3 Structure factors; 6.4 Comparison with small-angle scattering; 6.5 The Placzek correction; 7 Periodicity, symmetry and crystallography; 7.1 Repetitive structures and Bragg peaks; 7.2 Patterns and symmetries; 7.3 Circumventing the phase problem; 7.4 Powdered samples; 7.5 Magnetic structures; III: Inelastic scattering; 8 Energy exchange and dynamical information; 8.1 Experimental considerations; 8.2 Scattering from time-varying structures 8.3 A quantum transitions approach9 Examples of inelastic scattering; 9.1 Compton scattering; 9.2 Lattice vibrations; 9.3 Molecular spectroscopy; A: Discrete Fourier transforms; B: Resonant scattering and absorption; References; Index; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; Q; R; S; T; U; V; W; X; Y
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publisher	Oxford University Press,
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spelling	Sivia, D. S. Elementary scattering theory : for X-ray and neutron users / D.S. Sivia. Oxford ; New York : Oxford University Press, 2011. 1 online resource (xii, 201 pages) : illustrations (chiefly color) text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references (pages 193-196) and index. Print version record. The opportunities for doing scattering experiments at synchrotron and neutron facilities have grown rapidly in recent years and are set to continue to do so into the foreseeable future. This text provides a basic understanding of how these techniques enable the structure and dynamics of materials to be studied at the atomic and molecular level. Although mathematics cannot be avoided in a theoretical discussion, the aim has been to write a book that most scientists will still findapproachable. To this end, the first two chapters are devoted to providing a tutorial background in the mathematics. Cover; Contents; I: Some preliminaries; 1 Studying matter at the atomic and molecular level; 1.1 Length scales and logarithmic axes; 1.2 Resolution, magnification and microscopy; 1.3 Structure, dynamics and spectroscopy; 1.4 Atomic building blocks and interactions; 1.5 Energy, length and temperature scales; 1.6 A table of useful constants; 2 Waves, complex numbers and Fourier transforms; 2.1 Sinusoidal waves; 2.2 Complex numbers; 2.3 Fourier series; 2.4 Fourier transforms; 2.5 Fourier optics and physical insight; 2.6 Fourier data analysis; 2.7 A list of useful formulae; II: Elastic scattering 3 The basics of X-ray and neutron scattering3.1 An idealized scattering experiment; 3.2 Scattering by a single fixed atom; 3.3 Scattering from an assembly of atoms; 3.4 X-rays and synchrotron sources; 3.5 Reactors and pulsed neutron sources; 4 Surfaces, interfaces and reflectivity; 4.1 Reflectivity and Fourier transforms; 4.2 Reflectivity and geometrical optics; 4.3 X-rays, neutrons and other techniques; 5 Small-angle scattering and the big picture; 5.1 Diffraction and length scales; 5.2 Size, shape and molecular form factors; 5.3 Assemblies and correlations; 5.4 Pair-distribution function 5.5 Contrast matching6 Liquids and amorphous materials; 6.1 The middle phase of matter; 6.2 Radial distribution functions; 6.3 Structure factors; 6.4 Comparison with small-angle scattering; 6.5 The Placzek correction; 7 Periodicity, symmetry and crystallography; 7.1 Repetitive structures and Bragg peaks; 7.2 Patterns and symmetries; 7.3 Circumventing the phase problem; 7.4 Powdered samples; 7.5 Magnetic structures; III: Inelastic scattering; 8 Energy exchange and dynamical information; 8.1 Experimental considerations; 8.2 Scattering from time-varying structures 8.3 A quantum transitions approach9 Examples of inelastic scattering; 9.1 Compton scattering; 9.2 Lattice vibrations; 9.3 Molecular spectroscopy; A: Discrete Fourier transforms; B: Resonant scattering and absorption; References; Index; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; Q; R; S; T; U; V; W; X; Y Neutrons Scattering. http://id.loc.gov/authorities/subjects/sh85091228 X-rays Scattering. http://id.loc.gov/authorities/subjects/sh85148756 Neutrons Diffusion. Rayons X Diffusion. x-ray scattering. aat SCIENCE Physics Nuclear. bisacsh Neutrons Scattering fast X-rays Scattering fast scattering experiments, synchrotron facilities, neutron facilities, dynamics of materials, structure of materials OAPEN (Open Access Publishing in European Networks) OAPEN Print version: Sivia, D.S. Elementary scattering theory. Oxford ; New York : Oxford University Press, 2011 9780199228676 (DLC) 2012405141 (OCoLC)694227131 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=581484 Volltext
spellingShingle	Sivia, D. S. Elementary scattering theory : for X-ray and neutron users / Cover; Contents; I: Some preliminaries; 1 Studying matter at the atomic and molecular level; 1.1 Length scales and logarithmic axes; 1.2 Resolution, magnification and microscopy; 1.3 Structure, dynamics and spectroscopy; 1.4 Atomic building blocks and interactions; 1.5 Energy, length and temperature scales; 1.6 A table of useful constants; 2 Waves, complex numbers and Fourier transforms; 2.1 Sinusoidal waves; 2.2 Complex numbers; 2.3 Fourier series; 2.4 Fourier transforms; 2.5 Fourier optics and physical insight; 2.6 Fourier data analysis; 2.7 A list of useful formulae; II: Elastic scattering 3 The basics of X-ray and neutron scattering3.1 An idealized scattering experiment; 3.2 Scattering by a single fixed atom; 3.3 Scattering from an assembly of atoms; 3.4 X-rays and synchrotron sources; 3.5 Reactors and pulsed neutron sources; 4 Surfaces, interfaces and reflectivity; 4.1 Reflectivity and Fourier transforms; 4.2 Reflectivity and geometrical optics; 4.3 X-rays, neutrons and other techniques; 5 Small-angle scattering and the big picture; 5.1 Diffraction and length scales; 5.2 Size, shape and molecular form factors; 5.3 Assemblies and correlations; 5.4 Pair-distribution function 5.5 Contrast matching6 Liquids and amorphous materials; 6.1 The middle phase of matter; 6.2 Radial distribution functions; 6.3 Structure factors; 6.4 Comparison with small-angle scattering; 6.5 The Placzek correction; 7 Periodicity, symmetry and crystallography; 7.1 Repetitive structures and Bragg peaks; 7.2 Patterns and symmetries; 7.3 Circumventing the phase problem; 7.4 Powdered samples; 7.5 Magnetic structures; III: Inelastic scattering; 8 Energy exchange and dynamical information; 8.1 Experimental considerations; 8.2 Scattering from time-varying structures 8.3 A quantum transitions approach9 Examples of inelastic scattering; 9.1 Compton scattering; 9.2 Lattice vibrations; 9.3 Molecular spectroscopy; A: Discrete Fourier transforms; B: Resonant scattering and absorption; References; Index; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; Q; R; S; T; U; V; W; X; Y Neutrons Scattering. http://id.loc.gov/authorities/subjects/sh85091228 X-rays Scattering. http://id.loc.gov/authorities/subjects/sh85148756 Neutrons Diffusion. Rayons X Diffusion. x-ray scattering. aat SCIENCE Physics Nuclear. bisacsh Neutrons Scattering fast X-rays Scattering fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85091228 http://id.loc.gov/authorities/subjects/sh85148756
title	Elementary scattering theory : for X-ray and neutron users /
title_auth	Elementary scattering theory : for X-ray and neutron users /
title_exact_search	Elementary scattering theory : for X-ray and neutron users /
title_full	Elementary scattering theory : for X-ray and neutron users / D.S. Sivia.
title_fullStr	Elementary scattering theory : for X-ray and neutron users / D.S. Sivia.
title_full_unstemmed	Elementary scattering theory : for X-ray and neutron users / D.S. Sivia.
title_short	Elementary scattering theory :
title_sort	elementary scattering theory for x ray and neutron users
title_sub	for X-ray and neutron users /
topic	Neutrons Scattering. http://id.loc.gov/authorities/subjects/sh85091228 X-rays Scattering. http://id.loc.gov/authorities/subjects/sh85148756 Neutrons Diffusion. Rayons X Diffusion. x-ray scattering. aat SCIENCE Physics Nuclear. bisacsh Neutrons Scattering fast X-rays Scattering fast
topic_facet	Neutrons Scattering. X-rays Scattering. Neutrons Diffusion. Rayons X Diffusion. x-ray scattering. SCIENCE Physics Nuclear. Neutrons Scattering X-rays Scattering
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=581484
work_keys_str_mv	AT siviads elementaryscatteringtheoryforxrayandneutronusers

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