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Attosecond Time-Resolved Quantum Dynamics in Atoms and Surfaces

$260,000FY2011MPSNSF

Kansas State University, Manhattan KS

Investigators

Abstract

Extraordinary recent advances in time-resolved photoelectron spectroscopy are beginning to enable investigations of atoms, molecules, clusters, and solids surfaces with an unprecedented resolution of their electronic dynamics, which approaches one attosecond (one attosecond is a billionth of a billionth of a second). Our investigations of the dynamics of electron emission from atoms and surfaces at the natural time scale of the electronic motion in matter relates to both established and emerging fields of research. The time-resolved study of the electronic dynamics matter will promote the comprehensive understanding of i) elementary physical processes, such as single-electron and collective excitations and ii) the dynamics of electrons and electric fields in metals, semiconductor, and adsorbate-covered surfaces, (bio-) molecules, and nano-particles. These research projects are likely to deepen our insight into photochemical processes and chemical reaction dynamics at surfaces. Supported by numerical modeling, attosecond time-resolved measurements promise novel methods to prepare, probe, and control electronic excitations and the formation and breaking of chemical bonds in complex systems. They thus promise to enhance our understanding at the most fundamental level of chemistry and the biochemical basis of life in general. These research efforts may have a transformative impact on emerging technologies, such as quantum computing, plasmonics, nanocatalysis, and artificial photosynthesis, thereby contributing to the development of efficient catalytic devices needed to secure our energy supply. These investigations also have a strong educational component and will train students and postdocs in applying concepts as well as mathematical and numerical techniques used in modern atomic, optical, surface, and computational physics.

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