Helium Atom Scattering from SurfacesE. Hulpke Springer Science & Business Media, 2013. márc. 14. - 324 oldal High resolution helium atom scattering can be applied to study a number of interesting properties of solid surfaces with great sensitivity and accuracy. This book treats in detail experimental and theoretical aspects ofthis method as well as all current applications in surface science. The individual chapters - all written by experts in the field - are devoted to the investigation of surface structure, defect shapes and concentrations, the interaction potential, collective and localized surface vibrations at low energies, phase transitions and surface diffusion. Over the past decade helium atom scattering has gained widespread recognitionwithin the surface science community. Points in its favour are comprehensiveunderstanding of the scattering theory and the availability of well-tested approximation to the rigorous theory. This book will be invaluable to surface scientists wishing to make an informed judgement on the actual and potential capabilities of this technique and its results. |
Tartalomjegyzék
1 | |
6 | |
Interaction Potentials | 25 |
Structural Information from Atomic Beam Diffraction | 41 |
3 | 49 |
Allow | 56 |
Investigation of Surface Imperfections by Diffuse Scattering of He Atoms | 73 |
Resonances in Helium Scattering from Surfaces | 113 |
Frenken J W M | 172 |
Theoretical Aspects of AtomSurface Scattering | 173 |
From Theory to Spectroscopy and Back | 207 |
Physisorbed Rare Gas Adlayers Studied with Helium Scattering | 242 |
Phonon Inelastic Scattering | 265 |
Quasielastic Helium Scattering Studies of Adatom Diffusion on Surfaces | 287 |
315 | |
Still More Precision in Experiment and Theory for Many More | 141 |
Más kiadások - Összes megtekintése
Gyakori szavak és kifejezések
adatoms adsorbed adsorption anomaly approximation atom scattering atoms azimuth Benedek Bortolani bound Brillouin zone Brusdeylins calculations Cantini Celli Chem chopper Comsa correlation function corresponding corrugation amplitudes crystal Debye-Waller factor defects density detector diffraction diffraction intensities diffraction peaks dispersion curves dispersion relations DMSA dynamical eikonal elastic electron equation experimental factor force constant Fourier hard wall He-surface helium atoms helium scattering inelastic scattering interaction potential J.P. Toennies K.H. Rieder kinematic Lapujoulade lattice constant layer Lett matrix measured metal surfaces method minima molecules momentum monolayer Morse potential neutron nozzle observed obtained overlayers pairwise parameters particle phase phonon dispersion relation phonon energy Phys platinum pseudorandom quasielastic Rayleigh wave reciprocal lattice vector resolution resonance selective adsorption shown single phonon solid specular beam specular intensity Springer structure substrate Surf surface phonon dispersion temperature terrace tion transition unit cell Vatt vibrational wave vector wavefunction Wöll