Verfügbarkeit: Reconstructive phase transitions

Reconstructive phase transitions: in crystals and quasicrystals

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Bibliographische Detailangaben
Hauptverfasser:	Tolédano, Pierre (VerfasserIn), Dmitriev, Vladimir (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Singapore [u.a.] World Scientific 1996
Schlagworte:	Cristaux Fase-overgangen Kristallen Quasicristaux Quasikristallen Solidos e fluidos quanticos Transitions de phase Crystals Phase transformations (Statistical physics) Quasicrystals Quasikristall Phasenumwandlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 397 S. graph. Darst.
ISBN:	9810223641 9810228406

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245	1	0	\|a Reconstructive phase transitions \|b in crystals and quasicrystals \|c Pierre Tolédano ; Vladimir Dmitriev
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650		4	\|a Transitions de phase
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Datensatz im Suchindex

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adam_text	RECONSTRUCTIVE PHASE TRANSITIONS IN CRYSTALS AND QUASICRYSTALS PIERRE TOLEDANO UNIVERSITY OF AMIENS, FRANCE VLADIMIR DMITRIEV UNIVERSITY OF ROSTOV ON THE DON, RUSSIA W$ WORLD SCIENTIFIC WB SINGAPORE NEW JERSEY * L SINGAPORE »NEW JERSEY LONDON HONG KONG CONTENTS XI CHAPTER I. PHENOMENOLOGICAL THEORY OF FIRST-ORDER PHASE TRANSITIONS 1. INTRODUCTION 1 2. BASIC CONCEPTS OF THE LANDAU THEORY OF PHASE TRANSITIONS 2 2.1. AIM OF THE LANDAU THEORY 2 2.2. AN INTRODUCTORY EXAMPLE 3 2.2.1. CRYSTALLOGRAPHIC DESCRIPTION AND ASSUMPTIONS 3 2.2.2. SYMMETRY CONSTRAINTS: FORM OF THE FREE-ENERGY 4 2.2.3. THE ORDER PARAMETER 5 2.2.4. STABLE STATE BELOW T C AND PHYSICAL ANOMALIES AT T C 6 2.2.5. SYMMETRY OF THE ORDER-PARAMETER 10 2.2.6. DEGENERACY OF THE LOW SYMMETRY PHASE 11 2.3. GENERALIZATION OF THE PRECEDING EXAMPLE: FORMULATION OF THE LANDAU THEORY 12 2.3.1. SUMMARY OF THE RESULTS OBTAINED IN THE INTRODUCTORY EXAMPLE 12 2.3.2. DESCRIPTION OF A SECOND-ORDER PHASE TRANSITION 13 233. THE TRANSITION ORDER-PARAMETER 13 2.3.4. STABLE STATES AND SYMMETRY IN THE VICINITY OF T C 15 2.3.5. SUMMARY OF THE LANDAU SCHEME FOR THE STUDY OF A PHASE TRANSITION 16 2.4. SECONDARY ORDER-PARAMETERS 16 2.4.1. PRIMARY AND SECONDARY ORDER-PARAMETERS 16 2.4.2. RETURN TO THE INTRODUCTORY EXAMPLE 17 2.4.3. INFLUENCE OF THE SECONDARY ORDER-PARAMETER ON THE PROPERTIES OF THE SYSTEM 18 2.4.4. PHYSICAL ANOMALIES RELATED TO SECONDARY ORDER-PARAMETERS 19 2.4.5. GENERAL PROPERTIES OF SECONDARY ORDER-PARAMETERS 21 3. THE ANGULAR AND RADIAL PROBLEMS IN THE LANDAU THEORY OF STRUCTURAL TRANSITIONS 25 3.1. INTRODUCTION 25 3.2. THE ANGULAR PROBLEM AND ITS SOLUTIONS 27 3.2.1. IMAGE OF G 0 IN THE ORDER-PARAMETER REPRESENTATION 27 3.2.2. USE OF THE IMAGE-GROUP IN THE APPLICATION OF THE LANDAU THEORY 28 3.2.3. INTEGRITY BASES 30 3.2.4. ISOTROPY GROUPS AND OTHER SIMPLIFYING MATHEMATICAL CONCEPTS 32 3.2.5. ILLUSTRATION OF THE PRECEDING CONCEPTS 33 3.2.6. MINIMA OF F AND MAXIMAL ISOTROPY-GROUPS 35 3.2.7. MINIMA OF F AND DECOMPOSITION INTO ORBITS OF THE INTEGRITY BASIS OF L, 37 3.2.8. DETERMINATION OF THE LOW-SYMMETRY SPACE GROUPS 45 XII 3.3. THE RADIAL PROBLEM AND ITS SOLUTIONS 50 3.3.1. ARBITRARINESS OF THE PHENOMENOLOGICAL MODELS: SPECIFIC FORM OF THE LANDAU POTENTIAL 50 3.3.2. SOLUTIONS OF THE RADIAL PROBLEM FOR ONE-DIMENSIONAL ORDER-PARAMETER EXPANSIONS 51 3.3.3. PHASE DIAGRAMS FOR TWO-COMPONENT ORDER-PARAMETER EXPANSIONS 64 3.3.4. PHASE DIAGRAMS FOR THREE-COMPONENT ORDER-PARAMETER EXPANSIONS 83 3.3.5. PHASE DIAGRAMS FOR IMAGE-GROUPS CORRESPONDING TO AN IRREDUCIBLE ORDER-PARAMETER OF DIMENSION N 4 91 3.3.6. SUMMARY. OUTLINE OF A THEORY OF PHASE DIAGRAMS. FIRST-ORDER PHASE TRANSITIONS 95 SYMMETRY PREDICTED FIRST-ORDER PHASE TRANSITIONS 97 4.1. INTRODUCTION 97 4.2. THE LANDAU CONDITION 99 4.3. LOCK-IN TRANSITIONS AND THE LIFSHITZ CRITERION 101 4.4. PHASE TRANSITIONS ASSOCIATED WITH REDUCIBLE ORDER-PARAMETERS 104 4.4.1. GENERAL FEATURES OF THE PHASE DIAGRAMS ASSOCIATED WITH A REDUCIBLE ORDER-PARAMETER 104 4.4.2. BIQUADRATIC COUPLING BETWEEN TWO ORDER-PARAMETERS 105 4.4.3. IMPROPER COUPLING BETWEEN TWO ORDER-PARAMETERS 112 4.4.4. PSEUDO-PROPER COUPLING BETWEEN TWO ORDER-PARAMETERS 115 4.5. ISOSTRUCTURAL AND ANTIISOSTRUCTURAL PHASE TRANSITIONS 115 4.6. FIRST-ORDER PHASE TRANSITIONS AND STABLE FIXED POINTS 118 THEORY OF SINGULARITIES AND PHASE TRANSITIONS 121 5.1. INTRODUCTION 121 5.2. STRUCTURAL STABILITY 121 5.2.1. SOME DEFINITIONS AND CONCEPTS OF THE THEORY OF SINGULARITIES 121 5.2.2. SPLITTING LEMMA. DIFFEOMORPHISMS 123 5.3. NORMAL FORM OF A SINGULARITY 125 5.3.1. ADDITIONAL TERMINOLOGY 125 5.3.2. NORMAL FORMS: IN SEARCH OF THE LANDAU POTENTIAL 127 5.3.3. LOCAL NATURE OF THE OBSERVABLE SINGULARITIES 129 5.4. RESTRUCTURING OF PHASE DIAGRAMS. TOPOLOGICAL METAMORPHOSIS 130 5.4.1. EXTERNAL VARIABLES AND OBSERVABLE SINGULARITIES 130 5.4.2. THEORY OF THE RESTRUCTURING OF PHASE DIAGRAMS 130 5.4.3. TOPOLOGICAL METAMORPHOSIS 132 , REFERENCES 138 CHAPTER . DENSITY-WAVE THEORY OF RECONSTRUCTIVE PHASE TRANSITIONS 1. INTRODUCTION 143 2. INTRODUCTORY EXAMPLES TO THE DENSITY-WAVE APPROACH 144 2.1. A FIRST EXAMPLE OF DISPLACIVE RECONSTRUCTIVE PHASE TRANSITION 144 2.1.1. CRYSTALLOGRAPHIC DESCRIPTION OF THE TRANSITION MECHANISM 144 2.1.2. DENSITY-WAVE DESCRIPTION OF THE PHASE TRANSITION 145 2.1.3. THERMODYNAMIC POTENTIAL AND PHASE DIAGRAM 148 2.1.4. TEMPERATURE DEPENDENCE OF THE ORDER-PARAMETER, AND OF THE CRITICAL DISPLACEMENTS 150 2.1.5. OTHER TOPOLOGIES OF THE PHASE DIAGRAM 152 2.2. A SECOND EXAMPLE OF DISPLACIVE RECONSTRUCTIVE PHASE TRANSITION 154 2.2.1. THREE POSSIBLE PHASE TRANSITION MECHANISMS 154 2.2.2. DENSITY-WAVE APPROACH TO THE 4 * -* PHASE TRANSITION 156 2.3. AN EXAMPLE OF ORDER-DISORDER RECONSTRUCTIVE PHASE TRANSITION 158 2.3.1. MECHANISM OF THE -*** ORDERING TRANSITION 158 9 1 2.3.2. DENSITY-WAVE DESCRIPTION OF THE RECONSTRUCTIVE OH-DOEH TRANSITION 160 2.3.3. SYMMETRY OF THE ORDER-PARAMETER AND PHASE DIAGRAM 161 2.4. AN EXAMPLE OF PERIODIC-APERIODIC RECONSTRUCTIVE PHASE TRANSITION 162 2.4.1. CRYSTALLOGRAPHIC DESCRIPTION OF THE TETRAGONAL-OCTAGONAL TRANSFORMATION MECHANISM 162 2.4.2. DENSITY-WAVE DESCRIPTION OF THE C4 V -CG V MECHANISM 163 3. GENERALIZATION OF THE PRECEDING EXAMPLES: DENSITY-WAVE THEORY OF RECONSTRUCTIVE PHASE TRANSITIONS 165 3.1. DIFFERENCES IN THE PHENOMENOLOGICAL DESCRIPTIONS OF DISPLACIVE AND ORDER-DISORDER RECONSTRUCTIVE PHASE TRANSITIONS 165 3.2. FORMULATION OF THE DENSITY-WAVE THEORY, AND ITS CONNECTION WITH THE LANDAU THEORY 167 3.2.1. LATTICE FUNCTION, PROBABILITY DENSITY, ORDER-PARAMETER 167 3.2.2. ORDER-PARAMETER SPACE FOR RECONSTRUCTIVE PHASE TRANSITIONS 171 3.2.3. THERMODYNAMIC POTENTIAL, EQUATIONS OF STATE, STABLE STATES 174 4. SPECIFIC PROPERTIES OF RECONSTRUCTIVE PHASE TRANSITIONS 177 4.1. ORIENTATIONAL AND ANTIPHASE DOMAINS 177 4.2. TEMPERATURE DEPENDENCE OF THE ORDER-PARAMETER AND RELATED PHYSICAL QUANTITIES 181 4.3. SPECIFICITY OF THE PHASE DIAGRAMS INVOLVING RECONSTRUCTIVE TRANSITIONS 184 4.4. PHONON SPECTRA AND RECONSTRUCTIVE PHASE TRANSITIONS 186 5. APPLICABILITY OF THE DENSITY-WAVE THEORY OF RECONSTRUCTIVE PHASE TRANSITIONS 187 5.1. SUMMARY: SPECIFICITY OF RECONSTRUCTIVE PHASE TRANSITIONS 187 5.2. PARENT PHASE AND INITIAL STRUCTURE 188 XIV 5.3. LIMIT (NON-LANDAU) STATES AND LIMIT (LANDAU) STATES 189 5.4. INTERMEDIATE NATURE OF THE MECHANISM IN RECONSTRUCTIVE TRANSITIONS 190 5.5. DEGREE OF DISCONTINUITY OF FIRST-ORDER PHASE TRANSITION 192 6. REFERENCES 192 CHAPTER III. DISPLACIVE RECONSTRUCTIVE PHASE TRANSITIONS 1. INTRODUCTION 193 2. THE SS- * TRANSITION 193 2.1. THE TRANSITION MECHANISM 193 2.2. DIRECTION OF THE ORDER-PARAMETER IN THE E-SPACE 196 2.3. PERIODICITY OF THE ORDER-PARAMETER MAGNITUDE 198 2.4. THEORETICAL PHASE DIAGRAM FOR THE SS-CO TRANSITION 200 2.5. DISCUSSION 202 3. THE BCC-HCP TRANSITION: THE ROLE OF MACROSCOPIC DEFORMATION 203 3.1. THE BURGERS MECHANISM 203 3.2. BURGERS MECHANISM REFORMULATED 204 3.3. PERIODIC DEPENDENCE OF THE ORDER-PARAMETER MAGNITUDE 209 3.4. ALTERNATIVE DESCRIPTION OF THE BCC-HCP TRANSITION: THE HCP PARENT PHASE 212 3.5. THERMODYNAMICS OF THE BCC-HCP TRANSITION: IMPROPER SYMMETRY BREAKING STRAINS 215 4. THE BCC-FCC TRANSITION 218 4.1. THE BAIN DEFORMATION 218 4.2. THE BAIN DEFORMATION REVISED 221 4.3. PHASE DIAGRAM ASSOCIATED WITH THE BCC-FCC TRANSITION 223 4.4. THE BCC-FCC PHASE DIAGRAM 225 5. LANDAU AND LIMIT PHASES IN THE PHASE DIAGRAMS OF ACTINIDES 227 5.1. POLYMORPHISM OF THE ACTINIDE GROUP 227 5.2. LIGHTER ACTINIDES: FULL REALIZATION OF THE BAIN DEFORMATION 228 5.3. HEAVIER ACTINIDES: A VARIANT OF BURGERS MECHANISM 229 5.4. THE TRANSITIONS MECHANISMS IN URANIUM, NEPTUNIUM AND PLUTONIUM 230 5.4.1. THE FORMATION OF SS-URANIUM 231 5.4.2. THE LANDAU SS-AND A-PHASES OF NEPTUNIUM 232 5.4.3. THE IDIOSYNCRATIC Y, A AND SS STRUCTURES OF PLUTONIUM 234 5.5. PACKING OF OVALOID ATOMS IN ACTINIDE STRUCTURES 236 5.6. THE CHARGE DENSITY WAVES IN A-URANIUM 237 6. RECONSTRUCTIVE PHASE TRANSITIONS IN INORGANIC CRYSTALS 239 6.1. BREAKING OF THE GROUP-SUBGROUP RELATIONSHIP BETWEEN THE PHASE-SYMMETRIES IN COMPLEX CRYSTALS 239 6.2. SILVER IODIDE AND COPPER BROMIDE 240 XV 6.3. BERYLLIUM OXIDE 241 6.4. THE RECONSTRUCTIVE NACL TO CSCL TRANSITION IN ALKALI HALIDES 243 6.5. THE MONOCLINIC-ORTHORHOMBIC RECONSTRUCTIVE TRANSITION IN K 2 ZNBR 4 AND K 2 COBR 4 244 7. THE MARTENSITIC TRANSFORMATIONS IN LITHIUM AND SODIUM 246 7.1. EXPERIMENTAL FEATURES OF THE MARTENSITIC TRANSFORMATIONS IN NA AND LI 246 7.2. PHASE DIAGRAM OF SODIUM AND LITHIUM 247 7.3. PHONONS AND MARTENSITIC TRANSFORMATIONS 254 8. REFERENCES 259 CHAPTER IV. ORDERING TYPE RECONSTRUCTIVE PHASE TRANSITIONS 1. INTRODUCTION 265 2. THE FCC-HCP RECONSTRUCTIVE TRANSITION 266 2.1. CRYSTALLOGRAPHIC DESCRIPTION AND TRANSITION ORDER-PARAMETER 266 2.2. THERMODYNAMIC DESCRIPTION: THE PHASE DIAGRAMS OF HELIUM AND PRESEODYMIUM 273 2.3. THE PHONON SPECTRUM OF COBALT 280 2.4. STACKING FAULTS, ANTIPHASE DOMAINS, AND INCOMPLETE ORDERING 282 3. POLYTYPIC STRUCTURES IN ZINC SULFIDE AND BARIUM TITANATE 285 3.1. THE WURTZITE-SPHALERITE TRANSITION IN ZNS 285 3.2. THE CUBIC-HEXAGONAL TRANSITION IN ***** 287 4. THE GRAPHITE-DIAMOND RECONSTRUCTIVE TRANSITION 292 4.1. DEGREE OF OCCUPANCY OF THE DISORDERED POLYTYPE CELL, AND SYMMETRY OF ORDERED CUBIC STRUCTURES 292 4.2. CRYSTALLOGEOMETRICAL PROPERTIES OF HEXAGONAL GRAPHITE AND CUBIC DIAMOND 293 4.3. THE GRAPHITE-DIAMOND TRANSITION MECHANISM 294 4.4. CHANGES IN THE CHEMICAL BONDS AT THE GRAPHITE-DIAMOND TRANSITION: PHYSICAL NATURE OF THE ORDER-PARAMETER 297 5. THEORY OF ICE STRUCTURES 300 5.1. THE PHASE DIAGRAM OF ICE: THE PARENT IQ STRUCTURE 300 5.2. ORDERING OF THE OXYGEN ATOMS: THE TRANSITION MECHANISMS TO THE IJ,, IC, ICE * AND ICE VI PHASES 301 5.3. ORIENTATIONAL AND POSITIONAL ORDERING OF THE HYDROGEN ATOMS: THE STRUCTURES OF ICE VII, ICE VIII, ICE DC AND ICE XI 305 5.4. COUPLED ORDERING AND DISPLACIVE MECHANISMS FOR THE FORMATION OF ICE II 307 5.5. THE PHASE DIAGRAM OF ICE: CONNECTION BETWEEN PRESSURE, DENSITIES, AND THE FRACTIONAL CONCENTRATIONS OF IO 308 6. RECONSTRUCTIVE TRANSITIONS IN SI02 310 6.1. THE PHASE DIAGRAM OF SIUE2 310 6.2. THE BCC-STISHOVITE TRANSFORMATION 313 XVI 6.3. THE BCC-TRIDYMITE TRANSFORMATION 314 6.4. THE BCC-SS-CRISTOBALITE, AND SS-OC CRISTOBALITE TRANSFORMATIONS 315 6.5. THE BCC-COESITE TRANSFORMATION 316 7. ORDERING-TYPE AND DISPLACIVE-TYPE MECHANISMS IN LANTHANIDES 317 7.1. DIFFERENT APPROACHES TO LANTHANIDE STRUCTURES 317 7.2. CLASSIFICATION OF LANTHANIDE STRUCTURES 319 8. RECONSTRUCTIVE PHASE TRANSITIONS IN A CRYOGENIC CRYSTAL: NITROGEN 321 9. REFERENCES 323 CHAPTER V. CRYSTAL-QUASICRYSTAL RECONSTRUCTIVE PHASE TRANSITIONS 1. INTRODUCTION 327 2. THE CRYSTAL-QUASICRYSTAL TRANSITION MECHANISM 328 2.1. SYMMETRIZATION PROCESS AND LOCAL ICOSAHEDRAL ORDER 328 2.2. RELATIONSHIP BETWEEN CRYSTAL AND QUASICRYSTAL STRUCTURES IN ALMNSI ANDALLICU 332 2.3. BREAKING OF THE TRANSLATIONAL CRYSTAL SYMMETRY: LONG-RANGE QUASICRYSTALLINE ORDER IN ALFESI 335 2.3.1. THE INCOMMENSURATE WAVE-VECTOR ASSOCIATED WITH THE CRYSTAL-QUASICRYSTAL TRANSITION 335 2.3.2. DEFORMATION OF THE SYSTEM OF STATIONARY DENSITY-WAVES. ATOMIC POSITIONS IN THE ICOSAHEDRAL STRUCTURE 337 2.3.3. SYMMETRY OF THE ORDER-PARAMETER. PHASE DIAGRAM 342 3. DENSITY-WAVE THEORY OF THE FCC-ICOSAHEDRAL TRANSITIONS IN FETI2 (NITI2) ALLOYS 344 3.1. ORIENTATIONAL RELATIONSHIP BETWEEN THE FCC AND ICOSAHEDRAL STRUCTURES IN FETI2 344 3.2. BASIC SYSTEM OF DENSITY WAVES ASSOCIATED WITH THE INHOMOGENEOUS DEFORMATION MECHANISM 345 3.3. THE CRITICAL TRANSITION WAVE-VECTOR. SYMMETRIZATION PROCESS 346 3.4. ATOMIC POSITIONS IN THE ICOSAHEDRAL FETI 2 STRUCTURE 349 3.5. THE PHASE DIAGRAM 350 4. THE RHOMBOHEDRAL-ICOSAHEDRAL TRANSITION IN ALCUFE ALLOYS 352 4.1. REVERSIBLE TRANSITION BETWEEN MICROCRYSTALLINE-RHOMBOHEDRAL AND IDEAL ICOSAHEDRAL PHASES 352 4.2. ORIENTATIONAL RELATIONSHIP BETWEEN THE RHOMBOHEDRAL AND ICOSAHEDRAL STRUCTURES 353 4.3. DENSITY-WAVE DESCRIPTION OF THE INHOMOGENEOUS DEFORMATION MECHANISM: PRIMARY AND SECONDARY ORDER-PARAMETERS 355 XVII 4.4. INCOMMENSURATE MODULATION OF THE RHOMBOHEDRAL AGGREGATES AND LOCK-IN ICOSAHEDRAL PHASE 357 5. LOCAL STRUCTURAL MECHANISM FOR CRYSTAL-QUASICRYSTAL TRANSITIONS: THE T-LATTICE 357 5.1. CONNECTION BETWEEN THE DENSITY-WAVE AND CUT-AND-PROJECTION DESCRIPTIONS. ONE-DIMENSIONAL EXAMPLE OF T-LATTICE 358 5.2. TWO-DIMENSIONAL EXAMPLE OF T-LATTICE: THE TETRAGONAL-TO-OCTAGONAL TRANSITION IN MNSI ALLOYS 361 5.3. FUSION OF SITES. DIFFUSION. DISORDER 364 5.4. RETURN TO THE DENSITY-WAVE DESCRIPTION 366 6. DOMAIN STRUCTURE AND MICROCRYSTALLINE STATES IN QUASICRYSTALS 368 6.1. THE T-LATTICE AND THE DOMAIN STRUCTURE OF QUASICRYSTALS 368 6.2. THE AL 5 CULI 3 -AL 6 CULI 3 TRANSITION 369 6.3. THE AL4MN-AL7GMN22 (DECAGONAL) TRANSITION 372 7. REFERENCES 374 APPENDIX 1. GROUP-THEORETICAL ASPECTS OF THE PHENOMENOLOGICAL THEORY OF STRUCTURAL PHASE TRANSITIONS 1. CRYSTALLOGRAPHIC SPACE-GROUPS 378 1.1. GEOMETRICAL ELEMENTS COMPOSING A SPACE-GROUP 378 1.2. BRAVAIS LATTICE AND POINT-GROUP OF A CRYSTAL 379 1.3. SPACE-GROUP OF A CRYSTAL. UNIT-CELL 381 2. IRREDUCIBLE REPRESENTATIONS OF THE SPACE-GROUPS 382 2.1. IRREDUCIBLE REPRESENTATIONS OF A GROUP G 382 2.2. IRREDUCIBLE REPRESENTATION OF THE TRANSLATION GROUP. BRILLOUIN-ZONE. STAR OF K. SMALL REPRESENTATIONS OF G(K) 385 2.3. CONSTRUCTION OF THE IRREDUCIBLE REPRESENTATIONS OF A SPACE GROUP 387 3. GROUP THEORETICAL PROPERTIES USED IN THE FORMULATION OF THE LANDAU THEORY 389 3.1. DECOMPOSITION OF F(R) INTO A SUM OF IRREDUCIBLE FUNCTIONS 389 3.2. INVARIANT POLYNOMIALS 390 3.3. REDUCTION OF AN INVARIANT SPACE INTO IRREDUCIBLE SPACES 390 3.4. N-TH POWER OF A REPRESENTATION 391 4. REFERENCES 391 SUBJECT INDEX 393
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id	DE-604.BV011170354
illustrated	Illustrated
indexdate	2024-07-09T18:05:09Z
institution	BVB
isbn	9810223641 9810228406
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-007488892
oclc_num	35043731
open_access_boolean
owner	DE-355 DE-BY-UBR DE-703 DE-19 DE-BY-UBM DE-188
owner_facet	DE-355 DE-BY-UBR DE-703 DE-19 DE-BY-UBM DE-188
physical	XVII, 397 S. graph. Darst.
publishDate	1996
publishDateSearch	1996
publishDateSort	1996
publisher	World Scientific
record_format	marc
spelling	Tolédano, Pierre Verfasser aut Reconstructive phase transitions in crystals and quasicrystals Pierre Tolédano ; Vladimir Dmitriev Singapore [u.a.] World Scientific 1996 XVII, 397 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Cristaux Fase-overgangen gtt Kristallen gtt Quasicristaux Quasikristallen gtt Solidos e fluidos quanticos larpcal Transitions de phase Crystals Phase transformations (Statistical physics) Quasicrystals Quasikristall (DE-588)4202613-1 gnd rswk-swf Phasenumwandlung (DE-588)4132140-6 gnd rswk-swf Quasikristall (DE-588)4202613-1 s Phasenumwandlung (DE-588)4132140-6 s DE-604 Dmitriev, Vladimir Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007488892&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Tolédano, Pierre Dmitriev, Vladimir Reconstructive phase transitions in crystals and quasicrystals Cristaux Fase-overgangen gtt Kristallen gtt Quasicristaux Quasikristallen gtt Solidos e fluidos quanticos larpcal Transitions de phase Crystals Phase transformations (Statistical physics) Quasicrystals Quasikristall (DE-588)4202613-1 gnd Phasenumwandlung (DE-588)4132140-6 gnd
subject_GND	(DE-588)4202613-1 (DE-588)4132140-6
title	Reconstructive phase transitions in crystals and quasicrystals
title_auth	Reconstructive phase transitions in crystals and quasicrystals
title_exact_search	Reconstructive phase transitions in crystals and quasicrystals
title_full	Reconstructive phase transitions in crystals and quasicrystals Pierre Tolédano ; Vladimir Dmitriev
title_fullStr	Reconstructive phase transitions in crystals and quasicrystals Pierre Tolédano ; Vladimir Dmitriev
title_full_unstemmed	Reconstructive phase transitions in crystals and quasicrystals Pierre Tolédano ; Vladimir Dmitriev
title_short	Reconstructive phase transitions
title_sort	reconstructive phase transitions in crystals and quasicrystals
title_sub	in crystals and quasicrystals
topic	Cristaux Fase-overgangen gtt Kristallen gtt Quasicristaux Quasikristallen gtt Solidos e fluidos quanticos larpcal Transitions de phase Crystals Phase transformations (Statistical physics) Quasicrystals Quasikristall (DE-588)4202613-1 gnd Phasenumwandlung (DE-588)4132140-6 gnd
topic_facet	Cristaux Fase-overgangen Kristallen Quasicristaux Quasikristallen Solidos e fluidos quanticos Transitions de phase Crystals Phase transformations (Statistical physics) Quasicrystals Quasikristall Phasenumwandlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007488892&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT toledanopierre reconstructivephasetransitionsincrystalsandquasicrystals AT dmitrievvladimir reconstructivephasetransitionsincrystalsandquasicrystals

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