Optical excitation of Josephson plasma solitons in a cuprate superconductor

Dienst, A.; Casandruc, Eliza; Fausti, Daniele; Zhang, Lijian; Eckstein, Martin; Hoffmann, Matthias C.; Khanna, Vikaran; Dean, N.; Gensch, M.; Winnerl, S.; Seidel, W.; Pyon, S.; Takayama, T.; Takagi , H.; Cavalleri, Andrea

doi:10.1038/nmat3580

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Optical excitation of Josephson plasma solitons in a cuprate superconductor

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Casandruc, Eliza
Condensed Matter Dynamics Division, Max Planck Research Department for Structural Dynamics, Department of Physics, University of Hamburg, External Organizations;
CFEL, 22761 Hamburg, Germany;
International Max Planck Research School for Ultrafast Imaging & Structural Dynamics (IMPRS-UFAST), Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society;

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http://dx.doi.org/10.1038/nmat3580
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Citation

Dienst, A., Casandruc, E., Fausti, D., Zhang, L., Eckstein, M., Hoffmann, M. C., et al. (2013). Optical excitation of Josephson plasma solitons in a cuprate superconductor. Nature Materials, 12(6), 535-541. doi:10.1038/nmat3580.

Cite as: https://hdl.handle.net/11858/00-001M-0000-0019-8EA9-6

Abstract

Josephson plasma waves are linear electromagnetic modes that propagate along the planes of cuprate superconductors, sustained by interlayer tunnelling supercurrents. For strong electromagnetic fields, as the supercurrents approach the critical value, the electrodynamics become highly nonlinear. Josephson plasma solitons (JPSs) are breather excitations predicted in this regime, bound vortex–antivortex pairs that propagate coherently without dispersion. We experimentally demonstrate the excitation of a JPS in La_1.84Sr_0.16CuO₄, using intense narrowband radiation from an infrared free-electron laser tuned to the 2-THz Josephson plasma resonance. The JPS becomes observable as it causes a transparency window in the opaque spectral region immediately below the plasma resonance. Optical control of magnetic-flux-carrying solitons may lead to new applications in terahertz-frequency plasmonics, in information storage and transport and in the manipulation of high-T_c superconductivity.