Bogoliubov Quasiparticle on the Gossamer Fermi Surface in Electron-Doped Cuprates

Xu, Ke-Jun; Guo, Qinda; Hashimoto, Makoto; Li, Zi-Xiang; Chen, Su-Di; He, Junfeng; He, Yu; Li, Cong; Berntsen, Magnus; Rotundu, Costel; Lee, Young; Devereaux, Thomas; Rydh, Andreas; Lu, Dong-Hui; Lee, Dung-Hai; Tjernberg, Oscar; Shen, Zhi-Xun

doi:10.25740/gt676zx4703

Bogoliubov Quasiparticle on the Gossamer Fermi Surface in Electron-Doped Cuprates

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Abstract/Contents

Abstract: Electron-doped cuprates consistently exhibit strong antiferromagnetic correlations, leading to the prevalent belief that antiferromagnetic spin fluctuations mediate Cooper pairing in these unconventional superconductors. However, early investigations showed that while antiferromagnetic spin fluctuations create the largest pseudogap at hot spots in momentum space, the superconducting gap is also maximized at these locations. This presented a paradox for spin-fluctuation-mediated pairing: Cooper pairing is strongest at momenta where normal state low energy spectral weight is most suppressed. Here we investigate this paradox and find evidence that a gossamer – meaning very faint – Fermi surface can provide an explanation for these observations. We study Nd2-xCexCuO4 using angle-resolved photoemission spectroscopy and directly observe the Bogoliubov quasiparticles. First, we resolve the previously-observed reconstructed main band and the states gapped by the antiferromagnetic pseudogap around the hot spots. Within the antiferromagnetic pseudogap, we also observe gossamer states with distinct dispersion, from which Bogoliubov quasiparticle coherence peaks emerge below the superconducting critical temperature. We propose that orientation fluctuations in the antiferromagnetic order parameter are responsible for the gossamer states. Moreover, we find that the largest superconducting gap is an order of magnitude smaller than the pseudogap, establishing the distinct nature of these two gaps.

Description

Type of resource	Dataset, text
Date created	[ca. June 2023]
Publication date	June 30, 2023

Creators/Contributors

Author	Xu, Ke-Jun	https://orcid.org/0000-0003-2109-0765 (unverified)
Author	Guo, Qinda
Author	Hashimoto, Makoto
Author	Li, Zi-Xiang
Author	Chen, Su-Di
Author	He, Junfeng
Author	He, Yu
Author	Li, Cong
Author	Berntsen, Magnus
Author	Rotundu, Costel
Author	Lee, Young
Author	Devereaux, Thomas
Author	Rydh, Andreas
Author	Lu, Dong-Hui
Author	Lee, Dung-Hai
Author	Tjernberg, Oscar
Author	Shen, Zhi-Xun

Subjects

Subject	High temperature superconductivity
Genre	Data
Genre	Database
Genre	Tabular data
Genre	Data sets
Genre	Dataset
Genre	Databases
Genre	Tables (data)

Bibliographic information

DOI	https://doi.org/10.25740/gt676zx4703
Location	https://purl.stanford.edu/gt676zx4703

Access conditions

License: This work is licensed under a Creative Commons Attribution 4.0 International license (CC BY).

Preferred citation

Preferred citation: Xu, K., Guo, Q., Hashimoto, M., Li, Z., Chen, S., He, J., He, Y., Li, C., Berntsen, M., Rotundu, C., Lee, Y., Devereaux, T., Rydh, A., Lu, D., Lee, D., Tjernberg, O., and Shen, Z. (2023). Bogoliubov Quasiparticle on the Gossamer Fermi Surface in Electron-Doped Cuprates. Stanford Digital Repository. Available at https://purl.stanford.edu/gt676zx4703. https://doi.org/10.25740/gt676zx4703.

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Stanford Research Data

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Contact information

Contact: xkj868@gmail.com; kjxu@stanford.edu

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