Sailong Ju scite author profile

The recently discovered layered kagome metals AV3Sb5 (A = K, Rb, Cs) exhibit diverse correlated phenomena, which are intertwined with a topological electronic structure with multiple van Hove singularities (VHSs) in the vicinity of the Fermi level. As the VHSs with their large density of states enhance correlation effects, it is of crucial importance to determine their nature and properties. Here, we combine polarization-dependent angle-resolved photoemission spectroscopy with density functional theory to directly reveal the sublattice properties of 3d-orbital VHSs in CsV3Sb5. Four VHSs are identified around the M point and three of them are close to the Fermi level, with two having sublattice-pure and one sublattice-mixed nature. Remarkably, the VHS just below the Fermi level displays an extremely flat dispersion along MK, establishing the experimental discovery of higher-order VHS. The characteristic intensity modulation of Dirac cones around K further demonstrates the sublattice interference embedded in the kagome Fermiology. The crucial insights into the electronic structure, revealed by our work, provide a solid starting point for the understanding of the intriguing correlation phenomena in the kagome metals AV3Sb5.

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Josephson diode effect from Cooper pair momentum in a topological semimetal

Pal

et al. 2022

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Cooper pairs in non-centrosymmetric superconductors can acquire finite centre-of-mass momentum in the presence of an external magnetic field. Recent theory predicts that such finite-momentum pairing can lead to an asymmetric critical current, where a dissipationless supercurrent can flow along one direction but not in the opposite one. Here we report the discovery of a giant Josephson diode effect in Josephson junctions formed from a type-II Dirac semimetal, NiTe2. A distinguishing feature is that the asymmetry in the critical current depends sensitively on the magnitude and direction of an applied magnetic field and achieves its maximum value when the magnetic field is perpendicular to the current and is of the order of just 10 mT. Moreover, the asymmetry changes sign several times with an increasing field. These characteristic features are accounted for by a model based on finite-momentum Cooper pairing that largely originates from the Zeeman shift of spin-helical topological surface states. The finite pairing momentum is further established, and its value determined, from the evolution of the interference pattern under an in-plane magnetic field. The observed giant magnitude of the asymmetry in critical current and the clear exposition of its underlying mechanism paves the way to build novel superconducting computing devices using the Josephson diode effect.

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Josephson diode effect from Cooper pair momentum in a topological semimetal

Pal1¹,

Chakraborty²,

Sivakumar³

et al. 2021

Preprint

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ARPES study of the effect of Cu substitution on the electronic structure of NaFeAs

Cui

Kong

et al. 2013

Phys. Rev. B

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Using high-resolution angle-resolved photoemission spectroscopy, we studied the electronic structure of NaFe 1−x Cu x As (x = 0.019,0.045,0.14). With increasing the doping concentration, we found that the Cu dopant introduces extra charge carriers. The overall band dispersions barely change with doping, suggesting that the Cu substitution does not affect local correlations. Similar to the case of NaFe 1−x Co x As, one electron pocket emerges at the Brillouin zone center at high doping levels. Moreover, the near-E F spectral weight decreases with increasing the Cu dopant, which explains why the NaFe 1−x Cu x As shows a poor electronical conductivity at high doping levels.

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Sailong Ju

Rich nature of Van Hove singularities in Kagome superconductor CsV3Sb5

Josephson diode effect from Cooper pair momentum in a topological semimetal

Josephson diode effect from Cooper pair momentum in a topological semimetal

ARPES study of the effect of Cu substitution on the electronic structure of NaFeAs

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