000			06141nam a2200697 i 4500
001			9780750338752
003			IOP
005			20230516170254.0
006			m eo d
007			cr cn |||m|||a
008			210805s2021 enka fob 001 0 eng d
020			_a9780750338752 _qebook
020			_a9780750338745 _qmobi
020			_z9780750338738 _qprint
020			_z9780750338769 _qmyPrint
024	7		_a10.1088/978-0-7503-3875-2 _2doi
035			_a(CaBNVSL)thg00082575
035			_a(OCoLC)1262946079
040			_aCaBNVSL _beng _erda _cCaBNVSL _dCaBNVSL
050		4	_aQD945 _b.G534 2021eb
072		7	_aPHFC _2bicssc
072		7	_aSCI077000 _2bisacsh
082	0	4	_a548 _223
100	1		_aGlazer, A. M. _q(Anthony Michael), _eauthor. _970625
245	1	2	_aA journey into reciprocal space : _ba crystallographer's perspective / _cAnthony Michael Glazer.
250			_aSecond edition.
264		1	_aBristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : _bIOP Publishing, _c[2021]
300			_a1 online resource (various pagings) : _billustrations (some color).
336			_atext _2rdacontent
337			_aelectronic _2isbdmedia
338			_aonline resource _2rdacarrier
490	1		_a[IOP release $release]
490	1		_aIOP ebooks. [2021 collection]
500			_a"Version: 20210207"--Title page verso.
504			_aIncludes bibliographical references and index.
505	0		_a1. Direct space -- 1.1. What are crystals? -- 1.2. Miller indices -- 1.3. Symmetry operations and elements -- 1.4. Point-group symmetry -- 1.5. Translational symmetry -- 1.6. Crystal structures -- 1.7. Space groups
505	8		_a2. The reciprocal lattice -- 2.1. A brief history -- 2.2. Definition of the reciprocal lattice -- 2.3. Construction -- 2.4. Geometrical calculations
505	8		_a3. Diffraction -- 3.1. Introduction -- 3.2. Laue equations -- 3.3. Bragg's Law -- 3.4. The Ewald sphere -- 3.5. Lost in reciprocal space? -- 3.6. Imaging -- 3.7. Form factors -- 3.8. Structure factors -- 3.9. Thermal scattering -- 3.10. Intensities of reflections -- 3.11. Laue classes -- 3.12. Anomalous dispersion -- 3.13. Solution of crystal structures -- 3.14. Aperiodic crystals -- 3.15. Disordered and partially-ordered crystals
505	8		_a4. Dynamical diffraction -- 4.1. Multiple scattering -- 4.2. Renninger effect -- 4.3. Darwin's dynamical theory -- 4.4. Bloch's theorem -- 4.5. Two-beam approximation in electron diffraction -- 4.6. Pendell�osung or thickness fringes
505	8		_a5. Waves in a periodic medium -- 5.1. Waves in space -- 5.2. Periodic boundary conditions -- 5.3. Brillouin zones -- 5.4. Wigner-Seitz cell -- 5.5. Higher-order Brillouin zones -- 5.6. Density of states
505	8		_a6. Thermal and electronic properties -- 6.1. Heat capacity of solids -- 6.2. Vibrations of atoms -- 6.3. Heat conduction -- 6.4. Measurement of phonon dispersion -- 6.5. Free electrons in a metal -- 6.6. Tight-binding and nearly-free electrons -- 6.7. Metal or insulator?
505	8		_a7. Distortion modes -- 7.1. Introduction -- 7.2. Atomic displacements -- 7.3. Octahedral tilting -- 7.4. Group representations -- 7.5. Distortion modes.
520	3		_aThis is a substantially revised and expanded second edition of a book published in the Concise series. The book has been considerably extended and a number of corrections have been made to the text and diagrams. A new chapter (7) has also been added, on distortion mode analysis. Many new diagrams have been added and the topics have been explained more fully and with more attention to detail. This book starts with the crystallographer's point of view of direct and reciprocal space and then proceeds to develop this in a form suitable for physics applications. There are many books on condensed matter physics, written from the point of view of theoretical physicists. This book teaches the subject from the crystallographer's perspective. The emphasis will be on the importance of underlying periodicity, which lies at the heart of understanding the solid state, but which is usually glossed over in the standard condensed matter texts.
521			_aHigh level undergraduate and graduate students in condensed matter physics.
530			_aAlso available in print.
538			_aMode of access: World Wide Web.
538			_aSystem requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.
545			_aMike Glazer is Emeritus Professor of Physics at the University of Oxford and Jesus College Oxford, and Visiting Professor at the University of Warwick. From 2014 to 2017 he was also Vice-President of the International Union of Crystallography. His PhD research between 1965 and 1968 was under the supervision of Kathleen Lonsdale at University College London, working on the crystallography of organic mixed crystals. From 1968-1969, he was a Fellow at Harvard University, and then from 1969 to 1976 he was at the Cavendish Laboratory, Cambridge. In 1976, he was appointed Lecturer in Physics at the Clarendon Laboratory Oxford and as an Official Fellow and Tutor at Jesus College Oxford. Mike Glazer's research has mainly been in understanding the relationship between physical properties of crystals and their structures. He is perhaps best known for his classification system for tilted octahedra in perovskites. He is also one of the co-founders of Oxford Cryosystems Ltd, which supplies the world market in low-temperature apparatus for crystallographers.
588	0		_aTitle from PDF title page (viewed on August 5, 2021).
650		0	_aX-ray crystallography. _970626
650		0	_aSolid state physics. _93235
650		0	_aSpace groups. _92466
650		7	_aCondensed matter physics (liquid state & solid state physics) _2bicssc _970144
650		7	_aCondensed matter. _2bisacsh _917064
710	2		_aInstitute of Physics (Great Britain), _epublisher. _911622
776	0	8	_iPrint version: _z9780750338738 _z9780750338769
830		0	_aIOP (Series). _pRelease 21. _970627
830		0	_aIOP ebooks. _p2021 collection. _970628
856	4	0	_uhttps://iopscience.iop.org/book/978-0-7503-3875-2
942			_cEBK
999			_c82875 _d82875