My area of research is theoretical atomic, molecular, optical and surface physics. Currently, my research focuses on resolving in time and space the motion of electrons and nuclei in ion-surface interactions and during the fragmentation of small molecules by ultra short and intense laser light pulses.
Research Interests: Modeling, theory, and numerical computation of interactions between electrons, ions, and intense laser light with atoms, molecules, clusters, and solid surfaces.
Research Interests and Projects:
- Attoscience: Time-resolved photoelectron and high-harmonic emission from atoms, nanoparticles, and surfaces
- Femtoscience: Laser-induced and -probed molecular dissociation
- Ionic collisions with atoms, clusters, and surfaces. Highly charged ions
- Electron-atom collisions. Negative ions
- Theoretical and numerical methods in atomic and surface physics
Research Area: Atomic Molecular & Optical Physics
Research interests:
- Theory and numerical modeling of interactions of electrons, ions, and intense ultrashort pulses of light with atoms, molecules, clusters, and solid surfaces. Recent research projects are:
- Time-resolved dissociative ionization of small molecules
- Attosecond time-resolved photoemission
- High harmonic generation from gaseous atoms and solids
Expertise: Atomic, Molecular and Optical Physics
