Litcius/Paper detail

Shot Noise in Mesoscopic Systems: From Single Particles to Quantum Liquids

Kensuke Kobayashi, Masayuki Hashisaka

2021Journal of the Physical Society of Japan55 citationsDOIOpen Access PDF

Abstract

Shot noise, originating from the discrete nature of electric charge, is generated by scattering processes. Shot-noise measurements have revealed microscopic charge dynamics in various quantum transport phenomena. In particular, beyond the single-particle picture, such measurements have proved to be powerful ways to investigate electron correlation in quantum liquids. Here, we review the recent progress of shot-noise measurements in mesoscopic physics. This review summarizes the basics of shot-noise theory based on the Landauer-B\"{u}ttiker formalism, measurement techniques used in previous studies, and several recent experiments demonstrating electron scattering processes. We then discuss three different kinds of quantum liquids, namely those formed by, respectively, the Kondo effect, the fractional quantum Hall effect, and superconductivity. Finally, we discuss current noise within the framework of nonequilibrium statistical physics and review related experiments. We hope that this review will convey the significance of shot-noise measurements to a broad range of researchers in condensed matter physics.

Topics & Concepts

Mesoscopic physicsPhysicsShot noiseNoise (video)QuantumQuantum noiseQuantum mechanicsStatistical physicsCharge (physics)Macroscopic quantum phenomenaScatteringQuantum fluctuationRange (aeronautics)Non-equilibrium thermodynamicsQuantum technologyElectronQuantum dynamicsQuantum simulatorOpen quantum systemCondensed matter physicsQuantum dotSingle shotElectric chargeQuantum phasesQuantum dissipationQuantum metrologyQuantum sensorQuantum imagingCoulomb blockadeTheoretical physicsStrongly correlated materialQuantum point contactQuantum and electron transport phenomenaPhysics of Superconductivity and MagnetismAdvanced Physical and Chemical Molecular Interactions