Multiple Supersonic Phase Fronts Launched at a Complex-Oxide Heterointerface

M. Först; K. R. Beyerlein; R. Mankowsky; W. Hu; G. Mattoni; S. Catalano; M. Gibert; O. Yefanov; J. N. Clark; A. Frano; J. M. Glownia; M. Chollet; H. Lemke; B. Moser; S.P. Collins; S. S. Dhesi; A. D. Caviglia; J. M. Triscone; A. Cavalleri

doi:10.1103/PhysRevLett.118.027401

Multiple Supersonic Phase Fronts Launched at a Complex-Oxide Heterointerface

M. Först, K. R. Beyerlein, R. Mankowsky, W. Hu, G. Mattoni, S. Catalano, M. Gibert, O. Yefanov, J. N. Clark, A. Frano, J. M. Glownia, M. Chollet, H. Lemke, B. Moser, S.P. Collins, S. S. Dhesi, A. D. Caviglia, J. M. Triscone, A. Cavalleri

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Abstract

Selective optical excitation of a substrate lattice can drive phase changes across heterointerfaces. This phenomenon is a nonequilibrium analogue of static strain control in heterostructures and may lead to new applications in optically controlled phase change devices. Here, we make use of time-resolved nonresonant and resonant x-ray diffraction to clarify the underlying physics and to separate different microscopic degrees of freedom in space and time. We measure the dynamics of the lattice and that of the charge disproportionation in NdNiO3, when an insulator-metal transition is driven by coherent lattice distortions in the LaAlO3 substrate. We find that charge redistribution propagates at supersonic speeds from the interface into the NdNiO3 film, followed by a sonic lattice wave. When combined with measurements of magnetic disordering and of the metal-insulator transition, these results establish a hierarchy of events for ultrafast control at complex-oxide heterointerfaces.

Original language	English
Article number	027401
Journal	Physical Review Letters
Volume	118
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevLett.118.027401
Publication status	Published - 9 Jan 2017

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Först, M., Beyerlein, K. R., Mankowsky, R., Hu, W., Mattoni, G., Catalano, S., Gibert, M., Yefanov, O., Clark, J. N., Frano, A., Glownia, J. M., Chollet, M., Lemke, H., Moser, B., Collins, S. P., Dhesi, S. S., Caviglia, A. D., Triscone, J. M., & Cavalleri, A. (2017). Multiple Supersonic Phase Fronts Launched at a Complex-Oxide Heterointerface. Physical Review Letters, 118(2), Article 027401. https://doi.org/10.1103/PhysRevLett.118.027401

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abstract = "Selective optical excitation of a substrate lattice can drive phase changes across heterointerfaces. This phenomenon is a nonequilibrium analogue of static strain control in heterostructures and may lead to new applications in optically controlled phase change devices. Here, we make use of time-resolved nonresonant and resonant x-ray diffraction to clarify the underlying physics and to separate different microscopic degrees of freedom in space and time. We measure the dynamics of the lattice and that of the charge disproportionation in NdNiO3, when an insulator-metal transition is driven by coherent lattice distortions in the LaAlO3 substrate. We find that charge redistribution propagates at supersonic speeds from the interface into the NdNiO3 film, followed by a sonic lattice wave. When combined with measurements of magnetic disordering and of the metal-insulator transition, these results establish a hierarchy of events for ultrafast control at complex-oxide heterointerfaces.",

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Först, M, Beyerlein, KR, Mankowsky, R, Hu, W, Mattoni, G, Catalano, S, Gibert, M, Yefanov, O, Clark, JN, Frano, A, Glownia, JM, Chollet, M, Lemke, H, Moser, B, Collins, SP, Dhesi, SS, Caviglia, AD, Triscone, JM & Cavalleri, A 2017, 'Multiple Supersonic Phase Fronts Launched at a Complex-Oxide Heterointerface', Physical Review Letters, vol. 118, no. 2, 027401. https://doi.org/10.1103/PhysRevLett.118.027401

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AU - Moser, B.

AU - Collins, S.P.

AU - Dhesi, S. S.

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AU - Triscone, J. M.

AU - Cavalleri, A.

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AB - Selective optical excitation of a substrate lattice can drive phase changes across heterointerfaces. This phenomenon is a nonequilibrium analogue of static strain control in heterostructures and may lead to new applications in optically controlled phase change devices. Here, we make use of time-resolved nonresonant and resonant x-ray diffraction to clarify the underlying physics and to separate different microscopic degrees of freedom in space and time. We measure the dynamics of the lattice and that of the charge disproportionation in NdNiO3, when an insulator-metal transition is driven by coherent lattice distortions in the LaAlO3 substrate. We find that charge redistribution propagates at supersonic speeds from the interface into the NdNiO3 film, followed by a sonic lattice wave. When combined with measurements of magnetic disordering and of the metal-insulator transition, these results establish a hierarchy of events for ultrafast control at complex-oxide heterointerfaces.

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Multiple Supersonic Phase Fronts Launched at a Complex-Oxide Heterointerface

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