Index

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Index

activation energy: Further reading, Desorption, Desorption
active sites: Chemical reactions and catalysis
activity: Chemical reactions and catalysis
angle-resolved photoemission, ARPES: Measuring the electronic structure
anharmonicity: Electron scattering: EELS
associative adsorption: Further reading, Further reading
Auger transitions: Concluding remarks, SEXAFS
Bardeen approximation: Theory of operation
Bravais lattice: Lattice and reciprocal lattice
calorimetry: Single-crystal adsorption calorimetry\indexcalorimetry
channeltron: Electron sources and analysers
chemical shift: Introduction, Scanned-energy mode photoelectron diffraction:
CO: Vacuum requirements, Chemical analysis of the , Chemical reactions and catalysis, Angle-scan photoelectron diffraction: forward , Angle-scan photoelectron diffraction: forward , Scanned-energy mode photoelectron diffraction: , Scanned-energy mode photoelectron diffraction: , Photoexcitation from molecules, Adsorbate covered metal surfaces, Introduction, Introduction, Electron scattering: EELS , Optical spectroscopy: IRAS, He Atom scattering
corrosion: Introduction, Introduction
critical points: Interband transitions
crystal shape: Surface Thermodynamics and general
cylindrical mirror analyser: Electron sources and analysers
de Broglie wavelength: Low energy electron diffraction
Debye-Waller factor: EXAFS, Simple Theory
dielectric function: The dielectric function\indexdielectric function
dipole scattering: Electron scattering: EELS
dipole-active transitions: Electron scattering: EELS
dipole-approximation: Theory
dissociative adsorption: Further reading, Further reading
domains: General phenomena, Interpretation of LEED patterns
Electron Energy Loss Spectroscopy: Introduction, Bulk and surface plasmons, Bulk and surface plasmons, Polaritons, Electron scattering: EELS , Optical spectroscopy: IRAS, Optical spectroscopy: IRAS
electron mean free path: Why electrons: The mean , Low energy electron diffraction , Diffraction from a surface, Quantitative structure determination, Simple Theory, The three step model
electron spectroscopy: Electron spectroscopy\indexelectron spectroscopy
electronic surface states: Introduction, Electronic surface states: basic
Eley-Rideal pathway: Chemical reactions and catalysis
Ewald construction: Diffraction from a two-dimensional
EXAFS: EXAFS\indexEXAFS
exchange-correlation potential: Work function
exciton: Excitons\indexexciton
Fermi level pinning: Semiconductor surfaces
Finnis-Heine model: General phenomena, Metal surfaces, Clean metal surfaces
Fresnel equations: Reflection of Light at
He atoms scattering: He Atom scattering\indexHe atoms
heat of adsorption: Adsorption-desorption equilibrium, Single-crystal adsorption calorimetry
hemispherical analyser: Electron sources and analysers, Instrumentation
herringbone reconstruction on Au(111): Clean metal surfaces
heterogeneous ;tex2html_html_special_mark_quot;catalysis: Optical properties of surfaces
heterogeneous @catalysis: Chemical reactions and catalysis, Chemical reactions and catalysis
heterogeneous catalysis: Introduction
high T superconductors: Introduction
high T superconductors: Band mapping: 2d bands
image potential states: Electronic surface states: basic
impact scattering: Electron scattering: EELS
incommensurate lattices: Lattice and reciprocal lattice
Infrared Reflection Absorption Spectroscopy (IRAS): Optical spectroscopy: IRAS
inner potential: Diffraction from a surface, Work function
interband transition: Interband transitions\indexinterband transition
ion gauge: Pressure measurement[7], Pressure measurement[7], Materials and construction[7]
ion pump: Pumping and bakeout[7], Pumping and bakeout[7]
isotope effect: Electron scattering: EELS
jellium model: Adsorbates on metal surfaces, Work function
Kramers-Kronig relations: The dielectric function
Lambert's law: The dielectric function
Langmuir model: Desorption, Adsorption-desorption equilibrium
Langmuir-Hinshelwood pathway: Chemical reactions and catalysis
Laue conditions: Diffraction from a two-dimensional , Diffraction from a surface
Lindemann formula: Surface Thermodynamics and general
Low energy electron diffraction (LEED): Low energy electron diffraction
matrix notation: Lattice and reciprocal lattice
Miller indices: General phenomena
molecular mean free path: Vacuum requirements, Pumping and bakeout[7]
muffin-tin potential: Quantitative structure determination
multiple scattering: Low energy electron diffraction , Diffraction from a surface, EXAFS
nano technology: Introduction, Other applications and further
NH synthesis: Chemical reactions and catalysis
NiO: Insulator surfaces, Insulator surfaces
phonon: Phonons\indexphonon
Photoelectron diffraction (PhD, PED): Photoelectron diffraction (PhDPED)\indexPhotoelectron
photoemission process: The photoemission process\indexphotoemission process
Pirani gauge: Pressure measurement[7]
plasmon: Bulk and surface plasmons
poisoning of a catalyst: Chemical reactions and catalysis
polariton: Polaritons\indexpolariton
pressure measurement: Pressure measurement\citevaccomp\indexpressure measurement
projected band structure: Electronic surface states: basic
promotion of a catalyst: Chemical reactions and catalysis
quadrupole mass spectrometer: Chemical analysis of the , Desorption
R-factor: Quantitative structure determination, Scanned-energy mode photoelectron diffraction: , Scanned-energy mode photoelectron diffraction:
rationally related lattices: Lattice and reciprocal lattice
reconstruction: General phenomena, Semiconductor surfaces, Clean metal surfaces, Clean metal surfaces, Semiconductor surfaces, Semiconductor surfaces, Semiconductor surfaces, Semiconductor surfaces
Reflection Anisotropy Spectroscopy (RAS): Reflection Anisotropy Spectroscopy (RAS)\indexReflection
relaxation: General phenomena, Clean metal surfaces
rotary vane pump: Pumping and bakeout[7]
roughening transition: Surface Structure
satellite peaks: Theory
scanning force microscopy: Other applications and further
scanning tunnelling microscopy (STM): Scanning Tunnelling Microscopy\indexscanning tunnelling
scanning tunnelling spectroscopy (STS): Scanning Tunnelling Spectroscopy\indexscanning tunnelling , Vibrational spectroscopy with the
scattering phase shifts: Quantitative structure determination, Quantitative structure determination, EXAFS, Introduction
second harmonic generation (SHG): Second Harmonic Generation\indexsecond harmonic
selectivity: Chemical reactions and catalysis
SEXAFS: SEXAFS\indexSEXAFS
Shockley states: Clean metal surfaces
Si(100)-(2x1): Semiconductor surfaces, Semiconductor surfaces, Semiconductor surfaces, Semiconductor surfaces, Semiconductor surfaces, Scanning Tunnelling Spectroscopy
Si(111)-(7x7): Semiconductor surfaces, Semiconductor surfaces, Semiconductor surfaces
simply related lattices: Lattice and reciprocal lattice
Smoluchowski effect: General phenomena, Clean metal surfaces, Work function
SPA-LEED: Interpretation of LEED patterns
sputtering: Some surface states investigated
super-structures: Surface geometry: truncated bulk\indextruncated
surface melting: Surface Structure
surface resonances: Electronic surface states: basic , Some surface states investigated
surface sensitivity: Introduction, Electrons in solids: elastic , Optical properties of surfaces, He Atom scattering
surface tension: Surface Thermodynamics and general
surface x-ray scattering: Other scattering techniques
synchrotron radiation: Other scattering techniques, Extended X-ray Absorption Fine , SEXAFS, Introduction, Second Harmonic Generation
Tamm states: Clean metal surfaces
Tersoff-Hamann model: Theory of operation
Thermal Desorption Spectroscopy: Desorption
truncated bulk: Surface geometry: truncated bulk\indextruncated
turbomolecular pump: Pumping and bakeout[7]
ultra high vacuum, UHV: Ultra High Vacuum (UHV)\indexultra
universal curve: Why electrons: The mean
vapour pressure: Materials and construction[7]
Woods notation: Lattice and reciprocal lattice
work function: Work function\indexwork function
Wulff construction: Surface Thermodynamics and general

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