Xu Zhang scite author profile

Xu Zhang

3Publications

22Citation Statements Received

451Citation Statements Given

How they've been cited

How they cite others

318

425

Affiliations

University of Chinese Academy of Sciences, Institute of Physics, Chinese Academy of Sciences

Publications

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Transport anomalies and quantum criticality in electron-doped cuprate superconductors

Zhang

et al. 2016

Physica C: Superconductivity and its Applications

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Superconductivity research is like running a marathon. Three decades after the discovery of high-T c cuprates, there have been mass data generated from transport measurements, which bring fruitful information. In this review, we give a brief summary of the intriguing phenomena reported in electron-doped cuprates from the aspect of electrical transport as well as the complementary thermal transport. We attempt to sort out common features of the electron-doped family, e.g. the strange metal, negative magnetoresistance, multiple sign reversals of Hall in mixed state, abnormal Nernst signal, complex quantum criticality. Most of them have been challenging the existing theories, nevertheless, a unified diagram certainly helps to approach the nature of electron-doped cuprates.2

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Enhancement of electron correlations in ion-gated FeSe film by in situ Seebeck and Hall measurements

et al. 2021

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Quantum criticality tuned by magnetic field in optimally electron-doped cuprate thin films

Zhang

Chen

et al. 2021

Phys. Rev. B

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Antiferromagnetic (AF) spin fluctuations are commonly believed to play a key role in electron pairing of cuprate superconductors. In electron-doped cuprates, it is still in paradox about the interplay among different electronic states in quantum perturbations, especially between superconducting and magnetic states. Here, we report a systematic transport study on cation-optimized La 2−x Ce x CuO 4±δ (x = 0.10) thin films in high magnetic fields. We find an AF quantum phase transition near 60 T, where the Hall number jumps from n H = −x to n H = 1 − x, resembling the change of n H at the AF boundary (x AF = 0.14) tuned by Ce doping. In the AF region a spin dependent state manifesting anomalous positive magnetoresistance is observed, which is closely related to superconductivity. Once the AF state is suppressed by magnetic field, a polarized ferromagnetic state is predicted, reminiscent of the recently reported ferromagnetic state at the quantum endpoint of the superconducting dome by Ce doping. The magnetic field that drives phase transitions in a similar but distinct manner to doping thereby provides a unique perspective to understand the quantum criticality of electron-doped cuprates.

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Xu Zhang

Transport anomalies and quantum criticality in electron-doped cuprate superconductors

Enhancement of electron correlations in ion-gated FeSe film by in situ Seebeck and Hall measurements

Quantum criticality tuned by magnetic field in optimally electron-doped cuprate thin films

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