Impact of electron correlations on the k-resolved electronic structure of PdCrO2 revealed by Compton scattering

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Abstract

Delafossite PdCrO2 is an intriguing material which displays nearly-free electron and Mott insulating behaviour in different layers. Both angle-resolved photoemission spectroscopy (ARPES) and Compton scattering measurements have established a hexagonal Fermi surface in the material’s paramagnetic phase. However, the Compton experiment detected an additional structure in the projected occupancy which was originally interpreted as an additional Fermi surface feature not seen by ARPES. Here, we revisit this interpretation of the Compton data. State-of-the-art density functional theory (DFT) with dynamical mean field theory (DMFT), the so-called DFT+DMFT method, predicts the Mott insulating state along with a single hexagonal Fermi surface in excellent agreement with ARPES and Compton. However, DFT+DMFT fails to predict the intensity of the additional spectral weight feature observed in the Compton data. We infer that this discrepancy may arise from the DFT+DMFT not being able to correctly predict certain features in the shape and dispersion of the unoccupied quasiparticle band near the Fermi level. Therefore, a theoretical description beyond our DFT+DMFT model is needed to incorporate vital electron interactions, such as inter-layer electron coupling interactions which for PdCrO2 gives rise to the Kondo-like so-called intertwined excitation.
Original languageEnglish
Article number025002
Number of pages13
JournalElectronic Structure
Volume5
Issue number2
DOIs
Publication statusPublished - 23 May 2023

Bibliographical note

Funding Information:
A D N J acknowledges the Doctoral Prize Fellowship funding and support from the Engineering and Physical Sciences Research Council (EPSRC). We are grateful for the useful discussions with J Laverock, M Favaro-Bedford, Wenhan Chen, and C Mackellar. Calculations were performed using the computational facilities of the Advanced Computing Research Centre, University of Bristol ( http://bris.ac.uk/acrc/ ). The XCrySDen [] and VESTA ( https://jp-minerals.org/vesta/en/ ) packages have been used in the preparation of some figures.

Funding Information:
A D N J acknowledges the Doctoral Prize Fellowship funding and support from the Engineering and Physical Sciences Research Council (EPSRC). We are grateful for the useful discussions with J Laverock, M Favaro-Bedford, Wenhan Chen, and C Mackellar. Calculations were performed using the computational facilities of the Advanced Computing Research Centre, University of Bristol (http://bris.ac.uk/acrc/). The XCrySDen [49] and VESTA (https://jp-minerals.org/vesta/en/) packages have been used in the preparation of some figures.

Publisher Copyright:
© 2023 The Author(s). Published by IOP Publishing Ltd.

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