The physics of solids: essentials and beyond
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Heidelberg [u.a.]
Springer
2010
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| Schriftenreihe: | Graduate texts in physics
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIX, 865 S. graph. Darst. |
| ISBN: | 9783642020681 |
Internformat
MARC
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| 100 | 1 | |a Economou, Eleftherios N. |d 1940- |e Verfasser |0 (DE-588)10952473X |4 aut | |
| 245 | 1 | 0 | |a The physics of solids |b essentials and beyond |c Eleftherios N. Economou |
| 264 | 1 | |a Heidelberg [u.a.] |b Springer |c 2010 | |
| 300 | |a XIX, 865 S. |b graph. Darst. | ||
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| 490 | 0 | |a Graduate texts in physics | |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-020161981 | ||
Datensatz im Suchindex
| _version_ | 1804142738841534465 |
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| adam_text | CONTENTS PART I AN OVERVIEW 1 BASIC PRINCIPLES SUMMARIZED 3 1.1 THE
ATOMIC IDEA: FROM ELEMENTARY PARTICLES TO SOLIDS 4 1.2 PERMANENT (I.E.,
EQUILIBRIUM) STRUCTURES OF MATTER CORRESPOND TO THE MINIMUM OF THEIR
(FREE) ENERGY 6 1.3 CONDENSED MATTER TENDS TO COLLAPSE UNDER THE
INFLUENCE OF COULOMB POTENTIAL ENERGY 9 1.4 QUANTUM KINETIC ENERGY
COUNTERBALANCES COULOMB POTENTIAL ENERGY LEADING TO STABLE EQUILIBRIUM
STRUCTURES .. 10 1.4.1 HEISENBERG S UNCERTAINTY PRINCIPLE AND THE
MINIMUM KINETIC ENERGY 10 1.4.2 PAULI S EXCLUSION PRINCIPLE AND THE
ENHANCEMENT OF THE MINIMUM KINETIC ENERGY 11 1.4.3 SCHROEDINGER S
SPECTRAL DISCRETENESS AND THE RIGIDITY OF THE GROUND STATE 14 1.5
DIMENSIONAL ANALYSIS 15 1.6 KEY POINTS 18 1.7 QUESTIONS AND PROBLEMS 19
2 BASIC PRINCIPLES IN ACTION 21 2.1 SIZE AND ENERGY SCALE OF ATOMS 21
2.2 WHY DO ATOMS COME TOGETHER TO FORM MOLECULES AND SOLIDS? 23 2.3
IONIC MOTION: SMALL OSCILLATIONS 27 2.4 WHY DO THE SPECIFIC HEATS OF
SOLIDS GO TO ZERO AS T - 0 K ? . 29 2.5 WHEN IS CLASSICAL MECHANICS
ADEQUATE? 31 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/99519551X
DIGITALISIERT DURCH X CONTENTS 2.6 ESTIMATING MAGNITUDES THROUGH
DIMENSIONAL ANALYSIS 32 2.6.1 ATOMIC RADIUS, R A 32 2.6.2 VOLUME PER
ATOM, U A = V/N A , IN SOLIDS 32 2.6.3 MASS DENSITY, P M 33 2.6.4
COHESIVE ENERGY, U C 33 2.6.5 BULK MODULUS, B, AND SHEAR MODULUS, /Z S
34 2.6.6 SOUND VELOCITIES IN SOLIDS, CO, CE, ET 35 2.6.7 MAXIMUM ANGULAR
FREQUENCY OF ATOMIC VIBRATIONS IN SOLIDS, U; MAX 37 2.6.8 MELTING
TEMPERATURE, T M 37 2.6.9 DC ELECTRICAL RESISTIVITY, P E 38 2.7 KEY
POINTS 41 2.8 QUESTIONS AND PROBLEMS 42 3 A FIRST ACQUAINTANCE WITH
CONDENSED MATTER 47 3.1 VARIOUS KINDS OF CONDENSED MATTER 47 3.1.1
MONOCRYSTALLINE AND POLYCRYSTALLINE ATOMIC SOLIDS . . 48 3.1.2 ATOMIC OR
IONIC COMPOUNDS AND ALLOYS 49 3.1.3 MOLECULAR SOLIDS 49 3.1.4 GLASSES 49
3.1.5 POLYMERS 50 3.1.6 COLLOIDS 50 3.1.7 GELS 51 3.1.8 LIQUID CRYSTALS
51 3.1.9 SELF-ASSEMBLED SOFT MATTER 51 3.1.1 CONTENTS XI 3.4.3 BRAGG
PLANES 75 3.4.4 BRILLOUIN ZONES 75 3.5 KEY POINTS 77 3.6 QUESTIONS AND
PROBLEMS 78 PART II TWO SIMPLE MODELS FOR SOLIDS 4 THE JELLIUM MODEL AND
METALS I: EQUILIBRIUM PROPERTIES .. 83 4.1 INTRODUCTION 84 4.2
ELECTRONIC EIGENFUNCTIONS, EIGENENERGIES, NUMBER OF STATES .. 86 4.3
KINETIC AND POTENTIAL ENERGY, PRESSURES, AND ELASTIC MODULI 90 4.4
ACOUSTIC WAVES ARE THE IONIC EIGENOSCILLATIONS IN THE JM .... 97 4.5
THERMODYNAMIC QUANTITIES 101 4.5.1 GENERAL FORMULAS 101 4.5.2 SPECIFLC
HEAT, C V 104 4.5.3 BULK THERMAL EXPANSION COEFHCIENT 107 4.6 KEY POINTS
107 4.7 PROBLEMS 108 5 THE JELLIUM MODEL AND METALS II: RESPONSE TO
EXTERNAL PERTURBATIONS 113 5.1 RESPONSE TO ELECTRIC FIELD 113 5.2 THE
DIELECTRIC FUNCTION 114 5.3 STATIC ELECTRICAL CONDUCTIVITY 120 5.4
PHONON CONTRIBUTION TO RESISTIVITY 123 5.5 RESPONSE IN THE PRESENCE OF A
STATIC UNIFORM MAGNETIC FIELD 127 5.5.1 MAGNETIC RESONANCES 128 5.5.2
HALL EFFECT AND MAGNETORESISTANCE 131 5.5.3 MAGNETIC SUSCEPTIBILITY, XM
133 5.6 THERMOELECTRIC RESPONSE 140 5.7 KEY POINTS 143 5.8 PROBLEMS 145
6 SOLIDS AS SUPERGIANT MOLECULES: LCAO 149 6.1 DIVERSION: THE COUPLED
PENDULUMS MODEL 149 6.2 INTRODUCTORY REMARKS REGARDING THE LCAO METHOD
152 6. XII CONTENTS 6.8 ONE-DIMENSIONAL COMPOUND SP 1 SEMICONDUCTOR
171 6.9 KEY POINTS 174 6.10 PROBLEMS 174 7 SEMICONDUCTORS AND OTHER
TETRAVALENT SOLIDS 177 7.1 LATTICE STRUCTURES: A REMINDER 177 7.2 BAND
EDGES AND GAP 178 7.3 DIFFERENCES BETWEEN THE 1-D AND THE 3-D CASE AND
ENERGY DIAGRAMS 181 7.4 METALS, SEMICONDUCTORS, AND IONIC INSULATORS 183
7.5 HOLES 184 7.6 EFFECTIVE MASSES AND DOS 186 7.7 DIELECTRIC FUNCTION
AND OPTICAL ABSORPTION 188 7.8 EFFECTIVE HAMILTONIAN 189 7.9 IMPURITY
LEVELS 191 7.9.1 IMPURITY LEVELS: THE GENERAL PICTURE 191 7.9.2 IMPURITY
LEVELS: DOPING 192 7.10 CONCENTRATION OF ELECTRONS AND HOLES AT
TEMPERATURE T 195 7.10.1 INTRINSIC CASE 197 7.10.2 EXTRINSIC CASE 197
7.11 BAND STRUCTURE AND ELECTRONIC DOS 198 7.12 EIGENFREQUENCIES,
PHONONIC DOS, AND DIELECTRIC FUNCTION ... 200 7.13 KEY POINTS 207 7.14
PROBLEMS 208 8 BEYOND THE JELLIUM AND THE LCAO: AN OUTLINE 211 8.1
INTRODUCTORY REMARKS 211 8.2 THE FOUR BASIC APPROXIMATIONS 212 8.3
DENSITY FUNCTIONAL THEORY 215 8.4 OUTLINE OF AN ADVANCED SCHEME FOR
CALCULATING THE PROPERTIES OF SOLIDS 219 8.5 BEYOND THE FOUR BASIC
APPROXIMATIONS 221 8.5.1 PERIODICITY BROKEN OR ABSENT 223 8.5.2
ELECTRON-ELECTRON CORRELATIONS, QUASI-PARTICLES, MAGNETIC PHASES, AND
SUPERCONDUCTIVITY 235 8.5. CONTENTS XIII PART III MORE ABOUT PERIODICITY
& ITS CONSEQUENCES 9 CRYSTAL STRUCTURE AND IONIC VIBRATIONS 245 9.1
EXPERIMENTAL DETERMINATION OF CRYSTAL STRUCTURES 245 9.2 DETERMINATION
OF THE FREQUENCY VS. WAVEVECTOR 251 9.3 THEORETICAL CALCULATION OF THE
PHONON DISPERSION RELATION . . 256 9.4 THE DEBYE-WALLER FACTOR AND THE
INELASTIC CROSS-SECTION.... 263 9.5 KEY POINTS 268 9.6 PROBLEMS 269 10
ELECTRONS IN PERIODIC MEDIA. THE ROLE OF MAGNETIC FIELD 273 10.1
INTRODUCTION 273 10.2 DISPERSION RELATIONS, SURFACES OF CONSTANT ENERGY,
AND DOS: A REMINDER 274 10.3 EFFECTIVE HAMILTONIAN AND SEMICLASSICAL
APPROXIMATION 276 10.4 SEMICLASSICAL TRAJECTORIES IN THE PRESENCE OF A
MAGNETIC FIELD 280 10.5 TWO SIMPLE BUT ELUCIDATING TB MODELS 281 10.6
CYCLOTRON RESONANCE AND THE DE HAAS-VAN ALPHEN EFFECT.... 287 10.7 HALL
EFFECT AND MAGNETORESISTANCE 290 10.8 KEY POINTS 298 10.9 PROBLEMS 299
11 METHODS FOR CALCULATING THE BAND STRUCTURE 301 11.1 INTRODUCTORY
REMARKS 301 11.2 IONIC AND TOTAL PSEUDOPOTENTIALS 303 11.3 SCHROEDINGER
EQUATION, PLANE WAVE EXPANSION, AND BLOCH S THEOREM 309 11.4 PLANE WAVES
AND PERTURBATION THEORY 310 11.5 MUFFIN-TIN POTENTIAL 313 11.6
SCHROEDINGER EQUATION AND THE AUGMENTED PLANE WAVE (APW) METHOD 313 11.7
SCHROEDINGER EQUATION AND THE KORRINGA-KOHN-ROSTOKER (KKR XIV CONTENTS
12.4 SECOND-ORDER CORRECTION TO THE TOTAL JM ENERGY 337 12.5 IONIC
INTERACTIONS IN REAL SPACE 338 12.6 PHONONIC DISPERSIONS IN METALS 340
12.7 SCATTERING BY PHONONS, MEAN FREE PATH, AND THE DIMENSIONLESS
CONSTANT A IN METALS 342 12.8 KEY POINTS 345 12.9 PROBLEMS 346 PART IV
MATERIALS 13 SIMPLE METALS AND SEMICONDUCTORS REVISITED 351 13.1 BAND
STRUCTURE AND FERMI SURFACES OF SIMPLE METALS 351 13.1.1 ALKALI METALS
351 13.1.2 ALKALINE EARTHS: BE, MG, CA, SR, BA, AND RA 354 13.1.3
TRIVALENT METALS 354 13.1.4 TETRAVALENT METALS 358 13.2 BAND STRUCTURE
OF SEMICONDUCTORS 360 13.3 THE JONES ZONE AND THE DISAPPEARANCE OF THE
FERMI SURFACE 363 13.4 MECHANICAL PROPERTIES OF SEMICONDUCTORS 365 13.5
MAGNETIC SUSCEPTIBILITY OF SEMICONDUCTORS 368 13.6 OPTICAL AND TRANSPORT
PROPERTIES OF SEMICONDUCTORS 371 13.6.1 EXCITONS 371 13.6.2 CONDUCTIVITY
AND MOBILITY IN SEMICONDUCTORS 374 13.7 SILICON DIOXIDE (SIO 2 ) 378
13.8 GRAPHITE AND GRAPHENE 380 13.9 ORGANIC SEMICONDUCTORS 386 13.10 KEY
POINTS 388 13.11 QUESTIONS AND PROBLEMS 389 14 CLOSED-SHELL SOLIDS 393
14.1 VAN DER WAALS SOLIDS 393 14.2 IONIC COMPOUNDS I: TYPES AND CRYSTAL
STRUCTURES 397 14.3 IONIC COMPOUNDS II: MECHANICAL PROPERTIES 399 14.4
IONIC COMPOUNDS III: OPTICAL PROPERTIES 401 14. CONTENTS XV 15.5
COMPOUNDS OF TRANSITION ELEMENTS, I: PEROVSKITES 423 15.6 COMPOUNDS OF
TRANSITION ELEMENTS, II: HIGH T C SUPERCONDUCTING MATERIALS 426 15.7
COMPOUNDS OF TRANSITION METALS, III: OXIDES, ETC 430 15.8 KEY POINTS 434
15.9 PROBLEMS 435 16 ARTIFICIAL PERIODIC STRUCTURES 437 16.1
SEMICONDUCTOR SUPERLATTICES 437 16.2 PHOTONIC CRYSTALS: AN OVERVIEW 439
16.3 PHOTONIC CRYSTALS: THEORETICAL CONSIDERATIONS 443 16.4 PHONONIC
CRYSTALS 450 16.5 LEFT-HANDED METAMATERIALS (LHMS) 456 16.6 DESIGNING,
FABRICATING, AND MEASURING LHMS 461 16.7 KEY POINTS 466 16.8 PROBLEMS
468 PART V DEVIATIONS FROM PERIODICITY 17 SURFACES AND INTERFACES 471
17.1 SURFACE PREPARATION 471 17.2 RELAXATION AND RECONSTRUCTION 472 17.3
SURFACE STATES 474 17.4 WORK FUNCTION 479 17.5 MEASURING THE WORK
FUNCTION 481 17.6 THE P-N HOMOJUNCTION IN EQUILIBRIUM 483 17.7 THE P-N
HOMOJUNCTION UNDER AN EXTERNAL VOLTAGE V 487 17.8 SOME APPLICATIONS OF
INTERFACES 491 17.9 KEY POINTS 494 17.10 PROBLEMS 497 18 DISORDERED AND
OTHER NONPERIODIC SOLIDS 499 18.1 INTRODUCTORY REMARKS 499 18.2 ALLOYS
AND THE HUME-ROTHERY RULE 500 18.3 GLASSES AND OTHER AMORPHOUS SYSTEMS
502 18. XVI CONTENTS 18.8 CALCULATION TECHNIQUES 522 18.8.1 COHERENT
POTENTIAL APPROXIMATION 522 18.8.2 WEAK LOCALIZATION DUE TO QUANTUM
INTERFERENCE .... 526 18.8.3 SCALING APPROACH 529 18.8.4
QUASI-ONE-DIMENSIONAL SYSTEMS AND SCALING 532 18.8.5 POTENTIAL WELL
ANALOGY 533 18.9 QUANTUM HALL EFFECT 534 18.10 KEY POINTS 538 18.11
PROBLEMS 540 19 FINITE SYSTEMS 543 19.1 INTRODUCTION 543 19.2 METALLIC
CLUSTERS 544 19.3 FULLERENES 545 19.4 CEO-BASED SOLIDS 549 19.5 CARBON
NANOTUBES 551 19.6 OTHER CLUSTERS 556 19.7 QUANTUM DOTS 557 19.7.1 AN
OVERVIEW 557 19.7.2 OPTICAL TRANSITIONS 558 19.7.3 QDS AND COULOMB
BLOCKADE 561 19.8 KEY POINTS 564 19.9 PROBLEMS 565 PART VI CORRELATED
SYSTEMS 20 MAGNETIC MATERIALS, I: PHENOMENOLOGY 569 20.1 WHICH PROPERTY
CHARACTERIZES THESE MATERIALS? . 569 20.2 EXPERIMENTAL DATA FOR
FERROMAGNETS 573 20.2.1 SATURATION MAGNETIZATION VS TEMPERATURE FOR
SIMPLE FERROMAGNETS 573 20.2.2 MAGNETIC SUSCEPTIBILITY OF SIMPLE
FERROMAGNET FOR T T C 573 20.2.3 SATURATION MAGNETIZATION VS TEMPERATURE
FOR FERRIMAGNETS 574 20.2.4 MAGNETIC SUSCEPTIBILITY OF FERRIMAGNETS VS
TEMPERATURE (T T C ) 575 20. CONTENTS XVII 20.4 MATERIALS 577 20.4.1
SIMPLE FERROMAGNETIC MATERIALS 577 20.4.2 FERRIMAGNETIC MATERIALS 579
20.4.3 ANTIFERROMAGNETIC MATERIALS 580 20.5 THERMODYNAMIC RELATIONS 580
20.5.1 THERMODYNAMIC POTENTIALS 580 20.5.2 MEAN FIELD APPROXIMATION
(LANDAU S APPROACH) ... 583 20.5.3 WHY ARE MAGNETIC DOMAINS FORMED? 584
20.5.4 HOW THICK IS THE BLOCH WALL? 586 20.5.5 EXAMPLES OF MAGNETIC
DOMAINS 586 20.5.6 THERMODYNAMICS OF ANTIFERROMAGNETS 587 20.6
SPINTRONICS 588 20.7 KEY POINTS 592 20.8 PROBLEMS 593 21 MAGNETIC
MATERIALS II: MICROSCOPIC VIEW 595 21.1 INTRODUCTION 595 21.2 JELLIUM
MODEL AND EL-EL COULOMB REPULSION 599 21.2.1 IS THERE FERROMAGNETIC
ORDER IN THE JM? 599 21.2.2 MAGNETIC SUSCEPTIBILITY WITHIN THE JM IN THE
PRESENCE OF ELECTRON-ELECTRON INTERACTIONS 601 21.2.3 IS THERE
ANTIFERROMAGNETIC ORDER IN THE JM? 603 21.3 THE HUBBARD MODEL 607 21.4
THE HEISENBERG MODEL 613 21.4.1 THE HAMILTONIAN 613 21.4.2 MEAN FIELD
APPROXIMATION 615 21.4.3 THE FERROMAGNETIC CASE, (J Y - 0) AND ITS
SPIN WAVES 617 21.4.4 THE AF CASE 619 21.5 KEY POINTS 622 21.6 PROBLEMS
624 22 SUPERCONDUCTIVITY, I: PHENOMENOLOGY 625 22.1 MATERIALS 625 22.2
PROPERTIES OF SUPERCONDUCTORS 627 22.2.1 ZERO DC RESISTIVITY 627 22.2.
XVIII CONTENTS 22.2.7 TUNNELING CURRENT IN METAL/INSULATOR/
SUPERCONDUCTOR JUNCTIONS 635 22.2.8 TEMPERATURE DEPENDENCE OF THE
SUPERCONDUCTING GAP 635 22.2.9 ISOTOPE EFFECT 637 22.2.10 RELAXATION
TIMES FOR NUCLEAR SPIN 638 22.2.11 THERMOELECTRIC COEFFICIENTS 638 22.3
THERMODYNAMIC RELATIONS 639 22.4 LONDON EQUATION 641 22.5 PIPPARD S
GENERALIZATION 644 22.6 GINZBURG-LANDAU THEORY 645 22.7 QUANTIZATION OF
THE MAGNETIC FLUX 651 22.8 KEY POINTS 652 22.9 PROBLEMS 654 23
SUPERCONDUCTIVITY, II: MICROSCOPIC THEORY 655 23.1 ELECTRON-ELECTRON
INDIRECT ATTRACTION 655 23.2 COOPER PAIRS 657 23.3 COMMENTS 659 23.4
CORRECTED BINDING ENERGY AND THE CRITICAL TEMPERATURE .... 661 23.5
FURTHER CORRECTIONS TO THE FORMULA FOR T C 663 23.6 THE
BARDEEN-COOPER-SCHRIEFFER (BCS) THEORY 664 23.7 THERMODYNAMIC QUANTITIES
669 23.8 RESPONSE TO ELECTROMAGNETIC FIELDS 672 23.9 TOWARDS
MATERIAL-SPECIFIC CALCULATIONS OF SUPERCONDUCTING QUANTITIES 674 23.10
JOSEPHSON EFFECTS AND SQUID 677 23.11 KEY POINTS 680 23.12 PROBLEMS 682
PART VII APPENDICES A ELEMENTS OF ELECTRODYNAMICS OF CONTINUOUS MEDIA
685 A.L FIELD VECTORS, POTENTIALS, AND MAXWELL S EQUATIONS 685 A.2
RELATIONS AMONG THE FIELDS 688 B ELEMENTS OF QUANTUM MECHANICS 69
CONTENTS XIX C ELEMENTS OF THERMODYNAMICS AND STATISTICAL MECHANICS 713
C.L THERMODYNAMIC RELATIONS 713 C.2 BASIC RELATIONS OF STATISTICAL
MECHANICS 716 C.3 NON-INTERACTING PARTICLES 718 C.3.1 NON-INTERACTING
ELECTRONS 718 C.3.2 PHONONS 721 D DIELECTRIC FUNCTION, E(K,U)): FORMULAS
AND USES 723 D.L USES 724 D.2 EXPRESSIONS FOR E(K, LJ) WITHIN THE JM 728
D.3 PHENOMENOLOGICAL EXPRESSIONS FOR THE DIELECTRIC FUNCTION . .. 730 E
WAVES IN CONTINUOUS ELASTIC MEDIA 733 E.L STRAINS 733 E.2 EQUATIONS OF
MOTION 733 E.3 CONNECTING STRESS AND STRAIN 734 E.4 THE ELASTIC WAVE
EQUATION 735 F THE METHOD LCAO APPLIED TO MOLECULES 737 F.L FORMULATION
OF THE LCAO METHOD 737 F.2 SOME IMPORTANT EXAMPLES 740 F.2.1 COVALENT
DIATOMIC MOLECULE 740 F.2.2 IONIC DIATOMIC MOLECULE 742 F.3
HYBRIDIZATION OF ATOMIC ORBITALS 743 F.3.1 SP 1 HYBRID ATOMIC ORBITALS
744 F.3.2 SP 2 HYBRID ATOMIC ORBITALS 748 F.3.3 SP 3 HYBRID ATOMIC
ORBITALS 749 G BOLTZMANN S EQUATION 755 H TABLES 759 SOLUTIONS OF
SELECTED PROBLEMS AND ANSWERS 779 GENERA
|
| any_adam_object | 1 |
| author | Economou, Eleftherios N. 1940- |
| author_GND | (DE-588)10952473X |
| author_facet | Economou, Eleftherios N. 1940- |
| author_role | aut |
| author_sort | Economou, Eleftherios N. 1940- |
| author_variant | e n e en ene |
| building | Verbundindex |
| bvnumber | BV025562768 |
| classification_rvk | UP 1000 |
| classification_tum | PHY 601f |
| ctrlnum | (OCoLC)554978735 (DE-599)BVBBV025562768 |
| dewey-full | 530.41 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 530 - Physics |
| dewey-raw | 530.41 |
| dewey-search | 530.41 |
| dewey-sort | 3530.41 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| format | Book |
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| genre | (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| id | DE-604.BV025562768 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:36:33Z |
| institution | BVB |
| isbn | 9783642020681 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-020161981 |
| oclc_num | 554978735 |
| open_access_boolean | |
| owner | DE-11 DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-634 DE-20 DE-83 DE-355 DE-BY-UBR |
| owner_facet | DE-11 DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-634 DE-20 DE-83 DE-355 DE-BY-UBR |
| physical | XIX, 865 S. graph. Darst. |
| publishDate | 2010 |
| publishDateSearch | 2010 |
| publishDateSort | 2010 |
| publisher | Springer |
| record_format | marc |
| series2 | Graduate texts in physics |
| spelling | Economou, Eleftherios N. 1940- Verfasser (DE-588)10952473X aut The physics of solids essentials and beyond Eleftherios N. Economou Heidelberg [u.a.] Springer 2010 XIX, 865 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Graduate texts in physics Festkörperphysik (DE-588)4016921-2 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Festkörperphysik (DE-588)4016921-2 s DE-604 Erscheint auch als Online-Ausgabe 978-3-642-02069-8 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020161981&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Economou, Eleftherios N. 1940- The physics of solids essentials and beyond Festkörperphysik (DE-588)4016921-2 gnd |
| subject_GND | (DE-588)4016921-2 (DE-588)4123623-3 |
| title | The physics of solids essentials and beyond |
| title_auth | The physics of solids essentials and beyond |
| title_exact_search | The physics of solids essentials and beyond |
| title_full | The physics of solids essentials and beyond Eleftherios N. Economou |
| title_fullStr | The physics of solids essentials and beyond Eleftherios N. Economou |
| title_full_unstemmed | The physics of solids essentials and beyond Eleftherios N. Economou |
| title_short | The physics of solids |
| title_sort | the physics of solids essentials and beyond |
| title_sub | essentials and beyond |
| topic | Festkörperphysik (DE-588)4016921-2 gnd |
| topic_facet | Festkörperphysik Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020161981&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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