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The highlights of this work can be summarized in studies of: Pristine Carbon Nanostructures Functionalized Fullerenes and Heterofullerenes Graphene and Graphite Functionalized Single-Walled Carbon Nanotubes and Heteronanotubes Electronic and Optical Properties Our methods include: Synthesis and treatment of nanostructures materials in home-built setups or in international cooperations Photoemission-, Photoluminescence-, Optical Absorption-, and Raman spectroscopy to unravel electronic properties and structure Experiments at large-scale facilities, e.
Abstract Details: I will discuss how coherent electromagnetic radiation at infrared and TeraHertz frequencies can be used to drive collective excitations in solids nonlinearly.
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I will discuss how targeted excitation can be use to induce ordered states, with new symmetries not found at equilibrium. I will cover the physics of driven alkali doped fullerenes, in which driving can induce transient superconducting order and experiments in graphene, in which light can be used to induce a Floquet topological insulating state.
He joined the Oxford faculty in He is best known for his experiments in which intense TeraHertz pulses are used to drive large amplitude and coherent lattice distortions in solids, manipulating their electronic properties, and for demonstrating that one can induce non-equilibrium superconductivity far above the thermodynamic transition temperature.
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