We demonstrate the structural sensitivity and accuracy of the standing wave technique at a high repetition rate free-electron laser, FLASH at DESY in Hamburg, by measuring the photoelectron yield from the surface SiO<sub>2</sub> of Mo/Si multilayers. These experiments open up the possibility to obtain unprecedented structural information of adsorbate and surface atoms with picometer spatial accuracy and femtosecond temporal resolution. This technique will substantially contribute to a fundamental understanding of chemical reactions at catalytic surfaces and the structural dynamics of superconductors
SIGLECopy held by FIZ Karlsruhe; available from UB/TIB Hannover / FIZ - Fachinformationszzentrum Kar...
Photoelectron diffraction is the consequence of the coherent interference of the directly-emitted co...
The coherent elastic scattering by surrounding atoms of a photoelectron wave field emitted from an a...
The technique of x-ray standing waves as a means of structure determination is reviewed with special...
An X-ray standing wave (XSW) may be established in any crystalline solid by tuning either the energy...
Adatoms immersed in an x-ray standing wave at a surface betray their position within the wave by the...
The technique of X-ray standing wavefield absorption applied to the determination of adsorbate struc...
As surface science advances to studies of increasingly complex surface phases, such as the coadsorpt...
In the application of x-ray standing wave (XSW) methods to the determination of surface structures, ...
Understanding the interaction between surfaces and their surroundings is crucial in many materials-s...
Photoelectron diffraction is the name given to the phenomenon resulting from the coherent interferen...
The Photo-Emission and Atomic Resolution Laboratory (PEARL) is a new soft X-ray beamline and surface...
The Photo-Emission and Atomic Resolution Laboratory (PEARL) is a new soft X-ray beamline and surface...
Photoelectron diffraction is the name given to the phenomenon resulting from the coherent interferen...
In the pursuit of an understanding of complex surfaces, the problem of obtaining quantitative struct...
SIGLECopy held by FIZ Karlsruhe; available from UB/TIB Hannover / FIZ - Fachinformationszzentrum Kar...
Photoelectron diffraction is the consequence of the coherent interference of the directly-emitted co...
The coherent elastic scattering by surrounding atoms of a photoelectron wave field emitted from an a...
The technique of x-ray standing waves as a means of structure determination is reviewed with special...
An X-ray standing wave (XSW) may be established in any crystalline solid by tuning either the energy...
Adatoms immersed in an x-ray standing wave at a surface betray their position within the wave by the...
The technique of X-ray standing wavefield absorption applied to the determination of adsorbate struc...
As surface science advances to studies of increasingly complex surface phases, such as the coadsorpt...
In the application of x-ray standing wave (XSW) methods to the determination of surface structures, ...
Understanding the interaction between surfaces and their surroundings is crucial in many materials-s...
Photoelectron diffraction is the name given to the phenomenon resulting from the coherent interferen...
The Photo-Emission and Atomic Resolution Laboratory (PEARL) is a new soft X-ray beamline and surface...
The Photo-Emission and Atomic Resolution Laboratory (PEARL) is a new soft X-ray beamline and surface...
Photoelectron diffraction is the name given to the phenomenon resulting from the coherent interferen...
In the pursuit of an understanding of complex surfaces, the problem of obtaining quantitative struct...
SIGLECopy held by FIZ Karlsruhe; available from UB/TIB Hannover / FIZ - Fachinformationszzentrum Kar...
Photoelectron diffraction is the consequence of the coherent interference of the directly-emitted co...
The coherent elastic scattering by surrounding atoms of a photoelectron wave field emitted from an a...