Bulk charge density wave and electron-phonon coupling in superconducting copper oxychlorides

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Bulk charge density wave and electron-phonon coupling in superconducting copper oxychlorides

L. Chaix, B. Lebert, H. Miao, A. Nicolaou, F. Yakhou, H. Cercellier, S. Grenier, N. B. Brookes, A. Sulpice, S. Tsutsui, A. Bosak, L. Paolasini, D. Santos-Cottin, H. Yamamoto, I. Yamada, M. Azuma, T. Nishikubo, T. Yamamoto, M. Katsumata, M. P. M. Dean, and M. d'Astuto

Phys. Rev. Research 4, 033004 – Published 5 July 2022

Abstract

Bulk charge density waves are now reported in nearly all high-temperature superconducting cuprates, with the noticeable exception of one particular family: the copper oxychlorides. Here, we used resonant inelastic x-ray scattering to reveal a bulk charge density waves in these materials. Combining resonant inelastic x-ray scattering with nonresonant inelastic x-ray scattering, we investigate the interplay between the lattice excitations and the charge density wave, and evidence the phonon anomalies of the Cu-O bond-stretching mode at the charge density wave wave vector. We propose that such electron-phonon anomalies occur in the presence of dispersive charge excitations emanating from the charge density wave and interacting with the Cu-O bond-stretching phonon. Our results pave the way for future studies, combining both bulk and surface probes, to investigate the static and dynamical properties of the charge density wave in the copper oxychloride family.

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Received 28 July 2021
Revised 10 November 2021
Accepted 4 May 2022

DOI:https://doi.org/10.1103/PhysRevResearch.4.033004

Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI.

Published by the American Physical Society

Physics Subject Headings (PhySH)

Charge density waves Phonons

Cuprates High-temperature superconductors

Resonant inelastic x-ray scattering

Condensed Matter, Materials & Applied Physics

Authors & Affiliations

L. Chaix ^1,*, B. Lebert ², H. Miao^3,4, A. Nicolaou⁵, F. Yakhou⁶, H. Cercellier¹, S. Grenier ¹, N. B. Brookes⁶, A. Sulpice¹, S. Tsutsui ⁷, A. Bosak⁶, L. Paolasini ⁶, D. Santos-Cottin⁸, H. Yamamoto⁹, I. Yamada ¹⁰, M. Azuma^9,11, T. Nishikubo⁹, T. Yamamoto ⁹, M. Katsumata⁹, M. P. M. Dean ³, and M. d'Astuto ^1,12,†

¹Univ. Grenoble Alpes, CNRS, Grenoble INP, Institut Néel, 38000 Grenoble, France
²Department of Physics, University of Toronto, Toronto, Ontario M5S 1A7, Canada
³Condensed Matter Physics and Materials Science Department, Brookhaven National Laboratory, Upton, New York 11973, USA
⁴Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee, USA
⁵Synchrotron SOLEIL, Saint-Aubin, BP 48, 91192 Gif-sur-Yvette, France
⁶European Synchrotron Radiation Facility, 71 Avenue des Martyrs, CS40220, F-38043 Grenoble Cedex 9, France
⁷Japan Synchrotron Radiation Research Institute (JASRI), SPring-8, 1-1-1 Kouto, Sayo, Hyogo 679-5198, Japan
⁸Department of Physics, University of Fribourg, 1700 Fribourg, Switzerland
⁹Laboratory for Materials and Structures, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan
¹⁰Department of Materials Science, Graduate School of Engineering, Osaka Prefecture University1-2 Gakuen-cho, Naka-ku, Sakai, Osaka 599-8570, Japan
¹¹Kanagawa Institute of Industrial Science and Technology, Ebina 243-0435, Japan
¹²Tokyo Tech World Research Hub Initiative (WRHI), Institute of Innovative Research, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama, Kanagawa 226-8503, Japan

^*Corresponding author: laura.chaix@neel.cnrs.fr
^†Corresponding author: matteo.dastuto@neel.cnrs.fr

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Vol. 4, Iss. 3 — July - September 2022

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