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arxiv: 2008.11115 · v2 · pith:DGAIMPZ4new · submitted 2020-08-25 · ❄️ cond-mat.mtrl-sci

Ultrafast modification of the electronic structure of a correlated insulator

classification ❄️ cond-mat.mtrl-sci
keywords correlatedelectroniceffectsfieldselectroninsulatormaterialsresponse
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A non-trivial balance between Coulomb repulsion and kinematic effects determines the electronic structure of correlated electron materials. The use electromagnetic fields strong enough to rival these native microscopic interactions allows us to study the electronic response as well as the timescales and energies involved in using quantum effects for possible applications. We use element-specific transient x-ray absorption spectroscopy and high-harmonic generation to measure the response to ultrashort off-resonant optical fields in the prototypical correlated electron insulator NiO. Surprisingly, fields of up to 0.22 V/{\AA} leads to no detectable changes on the correlated Ni 3d-orbitals contrary to previous predictions. A transient directional charge transfer is uncovered, a behavior that is captured by first-principles theory. Our results highlight the importance of retardation effects in electronic screening, and pinpoints a key challenge in functionalizing correlated materials for ultrafast device operation.

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