周期势中流体动力局部量子临界金属的自然反常回旋响应

arXiv - PHYS - High Energy Physics - Theory Pub Date : 2024-09-17 DOI:arxiv-2409.11095

Nicolas Chagnet, Sam Arend, Floris Balm, Martijn Janse, Joshua Saldi, Koenraad Schalm

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引用次数: 0

摘要

我们研究了存在晶格的量子临界金属中的直流磁传输。在流体动力传输系统中，洛伦兹力和晶格的相互作用会对回旋频率产生自然的反常贡献，从而改变其典型的电荷质量比。这种效应的大小是普遍的，因为它只由热力学量决定。值得注意的是，德鲁德权重的变化使得晶格强度的第一个次低阶霍尔电阻率和霍尔系数没有发生变化，尽管霍尔角发生了变化。我们通过全息金属模型的数值模拟证实了我们的结果。对于弱晶格强度，这些流体动力效应被证明是存在的。数值模拟还表明，超越流体动力机制的强晶格效应可能会解决实验观察到的杯状奇异金属的异常霍尔响应。

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Natural anomalous cyclotron response in a hydrodynamic local quantum critical metal in a periodic potential

We study DC magnetotransport in a quantum critical metal in the presence of a lattice. In the regime where the transport is hydrodynamical the interplay of the Lorentz force and the lattice gives rise to a natural anomalous contribution to the cyclotron frequency that changes it from its canonical charge-to-mass ratio. The size of this effect is universal as it is determined only by thermodynamic quantities. Remarkably the Drude weight changes in such a way that to first subleading order in the lattice strength the Hall resistivity and Hall coefficient do not change, though the Hall angle does change. We confirm our results with numerical simulations in a holographic model of a strange metal. For weak lattice strength these hydrodynamic effects are shown to be present. The numerical simulations also suggest that strong lattice effects beyond a hydrodynamic regime may provide a resolution to the experimentally observed anomalous Hall response of cuprate strange metals.

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arXiv - PHYS - High Energy Physics - Theory

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