抑制脏边费米液体中的射出噪声

IF 3.7 2区物理与天体物理 Q1 Physics and Astronomy Physical Review B Pub Date : 2024-08-01 DOI:10.1103/physrevb.110.l081102

Tsz Chun Wu, Matthew S. Foster

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引用次数: 0

摘要

我们研究了二维无序边际费米液体（MFL）中脱离平衡的射出噪声。我们考虑了费米表面上具有普朗克耗散的电子与量子临界玻色子在无序状态下的耦合。在非相互作用和强电子玻色子阻力极限下，MFL 效应消失，我们的理论重现了已知结果。在玻色子保持平衡的情况下，非弹性散射通过耗散注入的能量强力抑制了噪声。有趣的是，我们发现 MFL 效应确实在这种情况下起了作用，并在强抑制的基础上产生了微弱的增强。我们的结果表明，在量子临界系统中，射出噪声可以被强烈抑制，这种情况可能与最近在重费米子奇异金属中进行的测量有关。

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Suppression of shot noise in a dirty marginal Fermi liquid

We study shot noise in a two-dimensional, disordered marginal Fermi liquid (MFL) driven out of equilibrium. We consider electrons with Planckian dissipation on the Fermi surface coupled to quantum-critical bosons in the presence of disorder. In the noninteracting and strong electron-boson drag limits, MFL effects disappear and our theory reproduces known results. For the case where the bosons remain in equilibrium, inelastic scattering strongly suppresses the noise by dissipating the injected energy. Interestingly, we find that MFL effects do play a role in this regime, and give a weak enhancement on top of the otherwise strong suppression. Our results suggest that shot noise can be strongly suppressed in quantum-critical systems, and this scenario may be relevant to recent measurements in a heavy-fermion strange metal.

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来源期刊

Physical Review B 物理-物理：凝聚态物理

CiteScore

6.70

自引率

32.40%

发文量

审稿时长

3.0 months

期刊介绍： Physical Review B (PRB) is the world’s largest dedicated physics journal, publishing approximately 100 new, high-quality papers each week. The most highly cited journal in condensed matter physics, PRB provides outstanding depth and breadth of coverage, combined with unrivaled context and background for ongoing research by scientists worldwide. PRB covers the full range of condensed matter, materials physics, and related subfields, including: -Structure and phase transitions -Ferroelectrics and multiferroics -Disordered systems and alloys -Magnetism -Superconductivity -Electronic structure, photonics, and metamaterials -Semiconductors and mesoscopic systems -Surfaces, nanoscience, and two-dimensional materials -Topological states of matter