Absence of Static Loop-Current Magnetism at the Apical Oxygen Site in<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:msub><mml:mi>HgBa</mml:mi><mml:mn>2</mml:mn></mml:msub><mml:msub><mml:mi>CuO</mml:mi><mml:mrow><mml:mn>4</mml:mn><mml:mo mathvariant="bold">+</mml:mo><mml:mi>δ</mml:mi></mml:mrow></mml:msub></mml:math>from NMR

Mounce, Andrew; Oh, Sangwon; Lee, Jeongseop A.; Halperin, W. P.; Reyes, A. P.; Kuhns, P. L.; Chan, M. K.; Dorow, C. J.; Ji, Lü; Xia, Dong; Zhao, Xudong; Greven, M.

doi:10.1103/physrevlett.111.187003

Cited by 46 publications

(41 citation statements)

References 51 publications

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“…IUC magnetic order would be retained, and the absent static field would be accounted for, if the ordered moments fluctuate among alternate orientations ( 15 , 18 , 19 ). This would average the local field B loc ( t ) at spin-probe sites to zero for time scales longer than a characteristic correlation time τ c .…”

Section: Introductionmentioning

confidence: 99%

Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa ₂ Cu ₃ O _y

et al. 2018

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Section: Introductionmentioning

confidence: 99%

Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa ₂ Cu ₃ O _y

et al. 2018

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“…While all of these experiments made it clear that the approach used up to now that interprets the cuprate NMR shifts fails, and despite some support from the phenomenological theory [57] that used the earlier findings within a generalized two-fluid scenario, the single-fluid approach is still being adopted (e.g., [58,59]), perhaps since a unifying, new phenomenology for the NMR data analysis is missing. With the new understanding of the cuprate phase diagram in terms of NMR that has two charge components (at Cu and O) [34], we decided to take a closer look at all available Cu shift data, which led us eventually to introduce a new, contrasting NMR shift phenomenology that will be discussed below.…”

Section: Failure Of the Single Fluid Modelmentioning

confidence: 99%

Contrasting Phenomenology of NMR Shifts in Cuprate Superconductors

2017

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Nuclear magnetic resonance (NMR) shifts, if stripped of their uncertainties, must hold key information about the electronic fluid in the cuprates. The early shift interpretation that favored a single-fluid scenario will be reviewed, as well as recent experiments that reported its failure. Thereafter, based on literature shift data for planar Cu, a contrasting shift phenomenology for cuprate superconductors is developed, which is very different from the early view while being in agreement with all published data. For example, it will be shown that the hyperfine scenario used up to now is inadequate as a large isotropic shift component is discovered. Furthermore, the changes of the temperature dependences of the shifts above and below the superconducting transitions temperature proceed according to a few rules that were not discussed before. It appears that there can be substantial spin shift at the lowest temperature if the magnetic field is perpendicular to the CuO 2 plane, which points to a localization of spin in the 3d(x 2 − y 2 ) orbital. A simple model is presented based on the most fundamental findings. The analysis must have new consequences for theory of the cuprates.

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“…In addition, the Θ II phase (a q = 0 Fermi surface instability) faces the challenge of explaining the excitation gap in the pseudogap regime. Intense effort has been devoted to searching indirectly for orbital loop currents, using techniques such as NMR [47][48][49] and muon spin rotation, [50][51][52] but their existence in the cuprates remains inconclusive.…”

Section: Introductionmentioning

confidence: 99%

Numerical exploration of spontaneous broken symmetries in multiorbital Hubbard models

et al. 2014

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We study three proposals for broken symmetry in the cuprate pseudogap -oxygen antiferromagnetism, ΘII orbital loop currents, and circulating currents involving apex oxygens -through numerical exploration of multi-orbital Hubbard models. Our numerically exact results show no evidence for the existence of oxygen antiferromagnetic order or the ΘII phase in the three-orbital Hubbard model. The model also fails to sustain an ordered current pattern even with the presence of additional apex oxygen orbitals. We thereby conclude that it is difficult to stabilize the aforementioned phases in the multi-orbital Hubbard models for parameters relevant to cuprate superconductors. However, the ΘII phase might be stabilized through explicit flux terms. We find an enhanced propensity for circulating currents with such terms in calculations simulating applied stress or strain, which skew the copper-oxygen plane to resemble a kagome lattice. We propose an experimental viewpoint to shed additional light on this problem.

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Absence of Static Loop-Current Magnetism at the Apical Oxygen Site inHgBa2CuO4+δfrom NMR

Cited by 46 publications

References 51 publications

Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa ₂ Cu ₃ O _y

Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa ₂ Cu ₃ O _y

Contrasting Phenomenology of NMR Shifts in Cuprate Superconductors

Numerical exploration of spontaneous broken symmetries in multiorbital Hubbard models

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Absence of Static Loop-Current Magnetism at the Apical Oxygen Site inHgBa2CuO4+δfrom NMR

Cited by 46 publications

References 51 publications

Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa 2 Cu 3 O y

Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa 2 Cu 3 O y

Contrasting Phenomenology of NMR Shifts in Cuprate Superconductors

Numerical exploration of spontaneous broken symmetries in multiorbital Hubbard models

Contact Info

Product

Resources

About

Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa ₂ Cu ₃ O _y

Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa ₂ Cu ₃ O _y