Determining the Electron-Phonon Coupling in Superconducting Cuprates by Resonant Inelastic X-ray Scattering: Methods and Results on Nd\(_{1+x}\)Ba\(_{2-x}\)Cu\(_3\)O\(_{7-\delta}\)

The coupling between lattice vibration quanta and valence electrons can induce charge density modulations and decisively influence the transport properties of materials, e.g. leading to conventional superconductivity. In high critical temperature superconductors, where electronic correlation is the...

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Bibliographic Details
Published in:arXiv.org 2020-03
Main Authors: Braicovich, Lucio, Rossi, Matteo, Fumagalli, Roberto, Peng, Yingying, Wang, Yan, Arpaia, Riccardo, Betto, Davide, De Luca, Gabriella M, Daniele Di Castro, Kummer, Kurt, Marco Moretti Sala, Pagetti, Mattia, Balestrino, Giuseppe, Brookes, Nicholas B, Salluzzo, Marco, Johnston, Steven, van den Brink, Jeroen, Ghiringhelli, Giacomo
Format: Article
Language:English
Subjects:
Antiferromagnetism
Charge density waves
Coupling
Cuprates
Inelastic scattering
Lattice vibration
Material properties
Momentum transfer
Phonons
Superconductivity
Transport properties
X-ray scattering
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Summary:The coupling between lattice vibration quanta and valence electrons can induce charge density modulations and decisively influence the transport properties of materials, e.g. leading to conventional superconductivity. In high critical temperature superconductors, where electronic correlation is the main actor, the actual role of electron-phonon coupling (EPC) is being intensely debated theoretically and investigated experimentally. We present an in-depth study of how the EPC strength can be obtained directly from resonant inelastic x-ray scattering (RIXS) data through the theoretical approach derived by Ament et al. [EPL 95, 27008 (2011)]. The role of the model parameters (e.g. phonon energy \(\omega_0\), intermediate state lifetime \(1/\Gamma\), EPC matrix element \(M\), and detuning energy \(\Omega\)) is thoroughly analyzed, providing general relations among them that can be used to make quantitative estimates of the dimensionless EPC \(g = (M/\omega_0)^2\) without detailed microscopic modeling. We then apply these methods to very high resolution Cu \(L_3\) edge RIXS spectra of three Nd\(_{1+x}\)Ba\(_{2-x}\)Cu\(_3\)O\(_{7-\delta}\) films. For the insulating antiferromagnetic parent compound the value of \(M\) as a function of the in-plane momentum transfer is obtained for Cu-O bond-stretching (breathing) and bond-bending (buckling) phonon branches. For the underdoped and the nearly optimally doped samples, the effects of Coulomb screening and of charge-density-wave correlations on \(M\) are assessed. In light of the anticipated further improvements of the RIXS experimental resolution, this work provides a solid framework for an exhaustive investigation of the EPC in cuprates and other quantum materials.
ISSN:2331-8422
DOI:10.48550/arxiv.1906.01270