Polarization independent hot electron production from modulated solid surfaces

Hot-electron dynamics at noble metal surfaces

The dynamics of excited electronic states at Ag surfaces is studied by evaluating the quasiparticle selfenergy within the GW approximation. The screened Coulomb interaction W is shown to be sensitive to the spatial variation of s-d screening near the surface. In the region of s-electron spill-out electronic damping is stronger than in the bulk due to the reduced s-d polarization, giving rise to...

Polarization-dependent electron affinity of LiNbO3 surfaces

Electron spectroscopy of corrugated solid surfaces.

This paper reviews work done of the influence of non-ideal surface topography on electron spectral intensities of surface-sensitive electron spectroscopic methods: primarily X-ray induced photoelectron spectroscopy (XPS) and concise Auger electron spectroscopy (AES), electron energy loss spectroscopy in the reflection mode (REELS), and elastic peak electron spectroscopy (EPES). Several attempts...

Loss of polarization in a hot-electron current through electron-electron scattering

By utilizing the spin-dependent mean free paths in Co, a polarizer-analyzer system for hot electrons has been established, enabling ballistic electron emission microscopy to measure the effects of scattering on the spin-dependent transport of hot electrons. Through the gradual oxidation of Al, it is possible to controllably increase the scattering effects of a Cu–Al–Cu spacer layer. As scatteri...

Observation of a hot high-current electron beam from a self-modulated laser wakefield accelerator.

A highly relativistic electron beam produced by a 50 TW laser-plasma accelerator has been characterized by photonuclear techniques. The beam has large divergence that increases with plasma density. The electron yield also increases with plasma density and reaches up to 4x10(11) electrons ( >10 MeV), with beam current approaching the Alfvén limit. Effective electron temperatures exceeding 8 MeV ...