10.1 Introduction to interaction of atoms with surfaces and surface phonons (Englisch)
Physics of Solid Surfaces
- Neue Suche nach: Benedek, G.
- Neue Suche nach: Campi, D.
- Neue Suche nach: Toennies, J. P.
- Neue Suche nach: Chiarotti, G.
- Neue Suche nach: Chiaradia, P.
- Neue Suche nach: Benedek, G.
- Neue Suche nach: Campi, D.
- Neue Suche nach: Toennies, J. P.
In:
Physics of Solid Surfaces
: Subvolume A
;
572-574
;
2015
- Aufsatz/Kapitel (Buch) / Elektronische Ressource
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Titel:10.1 Introduction to interaction of atoms with surfaces and surface phonons
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Untertitel:Physics of Solid Surfaces
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Beteiligte:Chiarotti, G. ( Herausgeber:in ) / Chiaradia, P. ( Herausgeber:in ) / Benedek, G. ( Autor:in ) / Campi, D. ( Autor:in ) / Toennies, J. P. ( Autor:in )
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Erschienen in:Physics of Solid Surfaces : Subvolume A ; 572-574Landolt-Börnstein - Group III Condensed Matter ; 45A ; 572-574
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Verlag:
- Neue Suche nach: Springer Berlin Heidelberg
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Erscheinungsort:Berlin, Heidelberg
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Erscheinungsdatum:01.01.2015
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Format / Umfang:3 pages
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ISBN:
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ISSN:
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DOI:
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Medientyp:Aufsatz/Kapitel (Buch)
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Format:Elektronische Ressource
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Sprache:Englisch
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Schlagwörter:
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Datenquelle:
Inhaltsverzeichnis E-Book
Die Inhaltsverzeichnisse werden automatisch erzeugt und basieren auf den im Index des TIB-Portals verfügbaren Einzelnachweisen der enthaltenen Beiträge. Die Anzeige der Inhaltsverzeichnisse kann daher unvollständig oder lückenhaft sein.
- 1
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1 General introduction to the Volume “Physics of Solid Surfaces”, LB III/45AChiarotti, G. / Chiaradia, P. et al. | 2015
- 15
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2.1 Introduction to scanning tunneling microscopy of metals and semiconductorFeenstra, R. M. / Hla, S. W. et al. | 2015
- 16
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2.2 MetalsFeenstra, R. M. / Hla, S. W. et al. | 2015
- 17
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2.2.1 Ag, SilverFeenstra, R. M. / Hla, S. W. et al. | 2015
- 22
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2.2.2 Au, GoldFeenstra, R. M. / Hla, S. W. et al. | 2015
- 27
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2.2.3 Cr, ChromiumFeenstra, R. M. / Hla, S. W. et al. | 2015
- 29
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2.2.4 Cu, CopperFeenstra, R. M. / Hla, S. W. et al. | 2015
- 32
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2.2.5 Fe, IronFeenstra, R. M. / Hla, S. W. et al. | 2015
- 33
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2.2.6 Ir, IridiumFeenstra, R. M. / Hla, S. W. et al. | 2015
- 35
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2.2.7 Mo, MolybdenumFeenstra, R. M. / Hla, S. W. et al. | 2015
- 36
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2.2.8 Ni, NickelFeenstra, R. M. / Hla, S. W. et al. | 2015
- 38
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2.2.9 Pd, PalladiumFeenstra, R. M. / Hla, S. W. et al. | 2015
- 39
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2.2.10 Pt, PlatinumFeenstra, R. M. / Hla, S. W. et al. | 2015
- 41
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2.2.11 Ta, TantalumFeenstra, R. M. / Hla, S. W. et al. | 2015
- 42
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2.2.12 V, VanadiumFeenstra, R. M. / Hla, S. W. et al. | 2015
- 43
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2.2.13 W, TungstenFeenstra, R. M. / Hla, S. W. et al. | 2015
- 44
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2.3 SemiconductorFeenstra, R. M. / Hla, S. W. et al. | 2015
- 45
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2.3.1 AlAs, Aluminum ArsenideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 46
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2.3.2 AlN, Aluminum NitrideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 47
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2.3.3 AlSb, Aluminum AntimonideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 48
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2.3.4 C, DiamondFeenstra, R. M. / Hla, S. W. et al. | 2015
- 49
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2.3.5 CdSe, Cadmium Selenide, and CdS, Cadmium SulfideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 50
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2.3.6 GaAs, Gallium ArsenideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 52
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2.3.7 GaN, Gallium NitrideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 54
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2.3.8 GaP, Gallium PhosphideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 55
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2.3.9 GaSb, Gallium AntimonideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 56
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2.3.10 Ge, GermaniumFeenstra, R. M. / Hla, S. W. et al. | 2015
- 58
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2.3.11 InAs, Indium ArsenideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 60
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2.3.12 InP, Indium PhosphideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 61
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2.3.13 InN, Indium NitrideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 62
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2.3.14 Si, SiliconFeenstra, R. M. / Hla, S. W. et al. | 2015
- 65
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2.3.15 SiC, Silicon CarbideFeenstra, R. M. / Hla, S. W. et al. | 2015
- 67
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3.1 Introduction to manipulation of surfaces with the methods of scanning probe microscopyMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 69
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3.2 Lateral manipulationMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 74
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3.3 Vertical manipulation and desorptionMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 77
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3.4 Atomic-scale chemistryMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 79
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3.5 Molecular mechanicsMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 81
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3.6 Manipulation on insulatorsMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 84
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3.7 Atomic/molecular switchesMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 86
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3.8 Tip functionalization by atomic/molecular manipulationMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 88
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3.9 Substrate manipulationMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 90
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3.10 Manipulation of surfaces with the methods of scanning probe microscopy: DataMeyer, G. / Gross, L. / Repp, J. et al. | 2015
- 100
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4.1 Introduction to X-ray diffraction of surface structuresSauvage-Simkin, M. et al. | 2015
- 108
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4.2.1 Metals and alloysSauvage-Simkin, M. et al. | 2015
- 116
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4.2.2 Oxide surfaces and interfacesSauvage-Simkin, M. et al. | 2015
- 123
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4.2.3 Semiconductor surfaces, interfaces, and nanostructuresSauvage-Simkin, M. et al. | 2015
- 127
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4.2.4 In-situ X-ray diffraction experiments on surfaces and interfacesSauvage-Simkin, M. et al. | 2015
- 134
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5.1 Introduction to elastic scattering and diffraction of electrons and positronsMoritz, W. et al. | 2015
- 135
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5.2 LEEDMoritz, W. et al. | 2015
- 152
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5.3 RHEEDMoritz, W. et al. | 2015
- 155
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5.4 SPA-LEEDMoritz, W. et al. | 2015
- 159
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5.5 VLEEDMoritz, W. et al. | 2015
- 162
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5.6 SPLEEDMoritz, W. et al. | 2015
- 164
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5.7 LEPDMoritz, W. et al. | 2015
- 165
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5.8 Elastic scattering and diffraction of electrons and positrons: Introduction to DataMoritz, W. et al. | 2015
- 167
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5.8.1 AgMoritz, W. et al. | 2015
- 171
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5.8.2 AlMoritz, W. et al. | 2015
- 175
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5.8.3 AuMoritz, W. et al. | 2015
- 177
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5.8.4 Be, BiMoritz, W. et al. | 2015
- 178
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5.8.5 C, Ca, CdMoritz, W. et al. | 2015
- 180
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5.8.6 CoMoritz, W. et al. | 2015
- 182
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5.8.7 CrMoritz, W. et al. | 2015
- 183
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5.8.8 CuMoritz, W. et al. | 2015
- 192
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5.8.9 FeMoritz, W. et al. | 2015
- 195
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5.8.10 GaMoritz, W. et al. | 2015
- 197
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5.8.11 Gd, GeMoritz, W. et al. | 2015
- 199
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5.8.12 H, InMoritz, W. et al. | 2015
- 200
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5.8.13 IrMoritz, W. et al. | 2015
- 202
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5.8.14 K, La, LiMoritz, W. et al. | 2015
- 203
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5.8.15 MgMoritz, W. et al. | 2015
- 204
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5.8.16 MoMoritz, W. et al. | 2015
- 206
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5.8.17 Na, NbMoritz, W. et al. | 2015
- 207
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5.8.18 NiMoritz, W. et al. | 2015
- 211
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5.8.19 PbMoritz, W. et al. | 2015
- 212
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5.8.20 PdMoritz, W. et al. | 2015
- 215
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5.8.21 PtMoritz, W. et al. | 2015
- 221
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5.8.22 Rb, ReMoritz, W. et al. | 2015
- 222
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5.8.23 RhMoritz, W. et al. | 2015
- 225
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5.8.24 RuMoritz, W. et al. | 2015
- 230
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5.8.25 SiMoritz, W. et al. | 2015
- 237
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5.8.26 Sn, SrMoritz, W. et al. | 2015
- 238
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5.8.27 Ta, Tb, TiMoritz, W. et al. | 2015
- 240
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5.8.28 VMoritz, W. et al. | 2015
- 241
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5.8.29 WMoritz, W. et al. | 2015
- 243
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5.8.30 Xe, Zn, ZrMoritz, W. et al. | 2015
- 244
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6.1 Introduction to elastic and inelastic scattering of ionsGladys, M. J. / O’Connor, D. J. et al. | 2015
- 251
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6.2 Low Energy Ion ScatteringGladys, M. J. / O’Connor, D. J. et al. | 2015
- 262
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6.3 Medium Energy Ion ScatteringGladys, M. J. / O’Connor, D. J. et al. | 2015
- 271
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6.4 Rutherford backscatteringGladys, M. J. / O’Connor, D. J. et al. | 2015
- 273
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6.5 High energy elastic recoilGladys, M. J. / O’Connor, D. J. et al. | 2015
- 275
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6.6 Recent applications of ion beam techniquesGladys, M. J. / O’Connor, D. J. et al. | 2015
- 278
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6.7 Summary of ion scatteringGladys, M. J. / O’Connor, D. J. et al. | 2015
- 279
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7.1 Introduction to electronic structure of surfacesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 284
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7.2 Introduction to Metal surfacesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 285
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7.2.1 Noble metalsBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 311
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7.2.2 Transition metalsBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 326
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7.2.3 sp metalsBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 331
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7.3 Introduction to Semiconductor surfacesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 332
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7.3.1 Group-IV semiconductor surfacesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 372
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7.3.2 The surfaces of III-V compoundsBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 384
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7.3.3 II-VI compound surfacesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 387
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7.3.4 CaF2 and other fluorides surfacesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 392
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7.4 Introduction to Oxide surfacesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 393
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7.4.1 Silicon oxidesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 397
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7.4.2 The surfaces of rocksalt alkaline-earth monoxides: MgO, CaO, SrO and BaOBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 404
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7.4.3 The surfaces of metal dioxides: TiO2 and SnO2Bertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 411
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7.4.4 The surfaces of cubic perovskitesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 427
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7.4.5 Magnetic oxidesBertoni, C. M. / Cappellini, G. / Finocchi, F. / Monachesi, P. et al. | 2015
- 431
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8.1 Introduction to optical properties of surfacesChiaradia, P. et al. | 2015
- 440
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8.2.1 Introduction to MetalsChiaradia, P. et al. | 2015
- 441
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8.2.1.1 Ag(110)Chiaradia, P. et al. | 2015
- 446
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8.2.1.2 Al(110)Chiaradia, P. et al. | 2015
- 448
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8.2.1.3 Au(110)Chiaradia, P. et al. | 2015
- 452
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8.2.1.4 Cu(110)Chiaradia, P. et al. | 2015
- 458
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8.2.1.5 Cu(111)Chiaradia, P. et al. | 2015
- 459
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8.2.1.6 Ni(110)Chiaradia, P. et al. | 2015
- 461
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8.2.1.7 Rh(110)Chiaradia, P. et al. | 2015
- 462
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8.2.1.8 W(110)Chiaradia, P. et al. | 2015
- 463
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8.2.2.1.1 C(100) (diamond)Chiaradia, P. et al. | 2015
- 467
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8.2.2.1.2 C(111) (diamond)Chiaradia, P. et al. | 2015
- 468
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8.2.2.1.3 Ge(100)Chiaradia, P. et al. | 2015
- 470
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8.2.2.1.4 Ge(110)Chiaradia, P. et al. | 2015
- 471
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8.2.2.1.5 Ge(111)Chiaradia, P. et al. | 2015
- 473
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8.2.2.1.6 Si(100)Chiaradia, P. et al. | 2015
- 478
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8.2.2.1.7 Si(110)Chiaradia, P. et al. | 2015
- 479
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8.2.2.1.8 Si(111)-(2×1)Chiaradia, P. et al. | 2015
- 481
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8.2.2.1.9 Si(111)-(7×7)Chiaradia, P. et al. | 2015
- 484
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8.2.2.2.1 GaAs(100)Chiaradia, P. et al. | 2015
- 489
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8.2.2.2.2 GaAs(110)Chiaradia, P. et al. | 2015
- 490
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8.2.2.2.3 InAs(100)Chiaradia, P. et al. | 2015
- 491
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8.2.2.2.4 InP(100)Chiaradia, P. et al. | 2015
- 492
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8.2.2.2.5 InP(110)Chiaradia, P. et al. | 2015
- 493
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8.2.2.3.1 CdS(100)Chiaradia, P. et al. | 2015
- 494
-
8.2.2.3.2 CdSeChiaradia, P. et al. | 2015
- 495
-
8.2.2.3.3 CdTe(110)Chiaradia, P. et al. | 2015
- 497
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8.2.2.3.4 ZnOChiaradia, P. et al. | 2015
- 498
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8.2.2.3.5 ZnSChiaradia, P. et al. | 2015
- 499
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8.2.2.3.6 ZnSe(100)Chiaradia, P. et al. | 2015
- 501
-
8.2.2.3.7 ZnTe(110)Chiaradia, P. et al. | 2015
- 502
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8.2.2.3.8 ZnTe(100)Chiaradia, P. et al. | 2015
- 503
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8.2.2.4.1 PbS(100)Chiaradia, P. et al. | 2015
- 505
-
8.2.2.4.2 PbSeChiaradia, P. et al. | 2015
- 506
-
8.2.2.4.3 PbTeChiaradia, P. et al. | 2015
- 507
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8.2.2.4.4 SnTeChiaradia, P. et al. | 2015
- 508
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9.1 Introduction to inelastic scattering of electrons and 9.2 Advances in the spectrometer designRocca, M. et al. | 2015
- 510
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9.3 Surface vibrationsRocca, M. et al. | 2015
- 512
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9.4 Plasmon-Phonon coupling in semiconductorRocca, M. et al. | 2015
- 513
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9.5 Surface plasmon dispersion and single particle excitationsRocca, M. et al. | 2015
- 515
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9.6 Magnetic surfaces and surface magnon dispersionRocca, M. et al. | 2015
- 516
-
9.7.1 MetalsRocca, M. et al. | 2015
- 538
-
9.7.2 SemimetalsRocca, M. et al. | 2015
- 545
-
9.7.3 SemiconductorRocca, M. et al. | 2015
- 572
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10.1 Introduction to interaction of atoms with surfaces and surface phononsBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 575
-
10.2 Introduction to atom-surface interactionBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 586
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10.3 Introduction to surface phononsBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 616
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10.4 Interaction of atoms with surfaces and surface phonons: Introduction to DataBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 617
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10.4.1 Insulator surfaces measured with helium atom scattering and related calculations, with referencesBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 622
-
10.4.2 Semiconductor surfaces measured with helium atom scattering and related calculations, with referencesBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 626
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10.4.3 Layered compound surfaces measured with helium atom scattering and related calculations, with referencesBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 628
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10.4.4 Metal, metal alloy, and elemental semi-metal surfaces measured with helium atom scattering and related calculationsBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 638
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10.4.5 Vibrations of adsorbates on insulator surfaces measured with helium atom scattering, with referencesBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 640
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10.4.6 Vibrations of adsorbates on metal and semimetal surfaces measured with helium atom scattering, with referencesBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 643
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10.4.7 Vibrations of diatomic adsorbates on metal surfaces measured with helium atom scattering, with referencesBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 645
-
10.4.8 Vibrations of polyatomic adsorbates on metal surfaces measured with helium atom scattering, with referencesBenedek, G. / Campi, D. / Toennies, J. P. et al. | 2015
- 647
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11.1 Introduction to magnetic properties at surfaceMattera, L. et al. | 2015
- 649
-
11.2.1 Thickness dependence of the Curie temperatureMattera, L. et al. | 2015
- 652
-
11.2.2 Magnetization vs. TMattera, L. et al. | 2015
- 655
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11.2.3 Surface enhancement of magnetic momentsMattera, L. et al. | 2015
- 657
-
11.2.4 Magnetic anisotropyMattera, L. et al. | 2015
- 666
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12.1 Introduction – C nanotubesZecchina, A. / Scarano, D. / Cesano, F. et al. | 2015
- 681
-
12.2 BN nanotubesZecchina, A. / Scarano, D. / Cesano, F. et al. | 2015
- 684
-
12.3 Oxides nanotubesZecchina, A. / Scarano, D. / Cesano, F. et al. | 2015
- 689
-
12.4 Metal sulfides nanotubesZecchina, A. / Scarano, D. / Cesano, F. et al. | 2015
- 691
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12.5 Surface properties of nanotubes: ConclusionsZecchina, A. / Scarano, D. / Cesano, F. et al. | 2015
- 692
-
13.1 Introduction – van der Waals and Casimir forcesIannuzzi, D. / Sedmik, R. et al. | 2015
- 702
-
13.2 Casimir force experiments: a historical panoramaIannuzzi, D. / Sedmik, R. et al. | 2015
- 708
-
13.3 Dependence on dielectric functionsIannuzzi, D. / Sedmik, R. et al. | 2015
- 726
-
13.4 Dependence on geometryIannuzzi, D. / Sedmik, R. et al. | 2015
- 739
-
13.5 Dependence on surface roughnessIannuzzi, D. / Sedmik, R. et al. | 2015
- 743
-
13.6 Casimir force experiments: surface effectsIannuzzi, D. / Sedmik, R. et al. | 2015
- 746
-
13.7 Casimir force in gaseous and liquid environmentsIannuzzi, D. / Sedmik, R. et al. | 2015