Ultrafast strain engineering in complex oxide heterostructures

Ultrafast strain engineering in complex oxide heterostructures

We report on ultrafast optical experiments in which femtosecond midinfrared radiation is used to excite the lattice of complex oxide heterostructures. By tuning the excitation energy to a vibrational mode of the substrate, a long-lived five-order-of-magnitude increase of the electrical conductivity...

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Veröffentlicht in:Physical review letters 2012-03, Vol.108 (13), p.136801-136801, Article 136801
Hauptverfasser: Caviglia, A D, Scherwitzl, R, Popovich, P, Hu, W, Bromberger, H, Singla, R, Mitrano, M, Hoffmann, M C, Kaiser, S, Zubko, P, Gariglio, S, Triscone, J-M, Först, M, Cavalleri, A
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Sprache:eng
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Zusammenfassung:We report on ultrafast optical experiments in which femtosecond midinfrared radiation is used to excite the lattice of complex oxide heterostructures. By tuning the excitation energy to a vibrational mode of the substrate, a long-lived five-order-of-magnitude increase of the electrical conductivity of NdNiO(3) epitaxial thin films is observed as a structural distortion propagates across the interface. Vibrational excitation, extended here to a wide class of heterostructures and interfaces, may be conducive to new strategies for electronic phase control at THz repetition rates.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.108.136801