Intense light-induced fragmentation of spherical clusters produces highly energetic ions with
characteristic spatial distributions. By subjecting argon clusters to a wavelength tunable …

We modeled strong-field ionization of metal nanoparticles by intense infrared laser pulses,
accounting for and distinguishing in photoelectron (PE) momentum distributions the effects …

We propose a scheme for the reconstruction of plasmonic near fields at isolated
nanoparticles from infrared-streaked extreme-ultraviolet photoemission spectra. Based on …

Optically induced collective conduction-electron oscillations can generate intense plasmonic
fields near metallic nanoparticles. We suggest a method for reconstructing such …

The efficient generation, accurate detection, and detailed physical tracking of energetic
electrons are of applied interest for high harmonics generation, electron-impact …

To solve the time-dependent Schrödinger equation in spatially inhomogeneous pulses of
electromagnetic radiation, we propose an iterative semiclassical complex trajectory …

The motion of electrons in atoms, molecules, and solids in the presence of intense
electromagnetic radiation is an important research topic in physics and physical chemistry …

In this dissertation, numerical models have been developed to investigate strong-field
photoemission and attosecond streaking spectroscopy from plasmonic nanoparticles …

Streaked photoemission from nanostructured surfaces and nanoparticles by attosecond
extreme ultraviolet (XUV) pulses into an infrared (IR) or visible streaking pulse allows for sub …