6533b85efe1ef96bd12bfd59
RESEARCH PRODUCT
Multiple scattering approach for two-electron resonant emission studied by angle-resolved coincidence spectroscopy.
S. Di MatteoAlessandro RuoccoRoberto GotterC. R. NatoliF Da PieveF Da PieveGiovanni StefaniRoberto GunnellaDidier Sébilleausubject
ABSORPTION FINE-STRUCTUREPhysicsDiffraction[PHYS]Physics [physics]ScatteringSolid-state02 engineering and technologyElectron021001 nanoscience & nanotechnologyCondensed Matter Physics01 natural sciencesCoincidenceElectronic Optical and Magnetic Materials0103 physical sciencesPHOTOELECTRONELECTRONAtomic physics010306 general physics0210 nano-technologySpectroscopyAnisotropyWave functionPACS 79.60.Bmdescription
International audience; We have developed a generalization of the multiple-scattering formalism to deal with Auger-photoelectron coincidence spectroscopy APECS in the solid state. We have merged the exact atomic treatment of the angular correlations between the two electrons and the single-particle approach, on which the multiplescattering description of condensed matter relies. This allows the recovering, even in extended systems, of the entangled form of the electron-pair wave function characterizing the coincidence angular diffraction pattern. In the atomic limit our formalism correctly reproduces the cross section, as calculated within the statistical-tensors approach, usually employed in atomic physics. We have then performed numerical calculations for the Ge100 L3M45M45 APECS and compared the results with previous experiments. We found that, in the given geometry, the diffraction patterns in coincidence with different directions of the photoelectron keep little memory of the atomic anisotropy. We speculate on the conditions to be fulfilled in order to enhance the atomic-orbital sensitivity in APECS through solid-state diffraction effects.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2008-07-22 |