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Fractional Entropy of Multichannel Kondo Systems from Conductance-Charge Relations

Cheolhee Han, Zubair Iftikhar, Yaakov Kleeorin, A. Anthore, F. Pierre, Yigal Meir, Andrew K. Mitchell, Eran Sela

2022Physical Review Letters63 citationsDOIOpen Access PDF

Abstract

Fractional entropy is a signature of nonlocal degrees of freedom, such as Majorana zero modes or more exotic non-Abelian anyons. Although direct experimental measurements remain challenging, Maxwell relations provide an indirect route to the entropy through charge measurements. Here we consider multichannel charge-Kondo systems, which are predicted to host exotic quasiparticles due to a frustration of Kondo screening at low temperatures. In the absence of experimental data for the charge occupation, we derive relations connecting the latter to the conductance, for which experimental results have recently been obtained. Our analysis indicates that Majorana and Fibonacci anyon quasiparticles are well developed in existing two- and three-channel charge-Kondo devices, and that their characteristic k_{B}logsqrt[2] and k_{B}log[(1+sqrt[5])/2] entropies are experimentally measurable.

Topics & Concepts

PhysicsQuasiparticleCharge (physics)MAJORANAQuantum mechanicsKondo effectTopological quantum computerEntropy (arrow of time)ConductanceAnyonMajorana fermionCoulombCondensed matter physicsFermionQuantumSuperconductivityElectrical resistivity and conductivityElectronQuantum and electron transport phenomenaTopological Materials and PhenomenaRare-earth and actinide compounds
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