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Thermal and Thermoelectric Transport in Low-Dimensional Materials

Philip Kim, Harvard University

Hosted by Harold Hwang

Event Details:

Thursday, December 7, 2023
3:15pm - 4:15pm PST

Location

Stanford University
486 Lomita Mall
McCullough Building, Room 115
Stanford, CA 94305
United States

Abstract

In low-dimensional systems, a growing number of many-body quantum phenomena have emerged from the combination of reduced dimensionality, strong interactions, and topology. Thermal and thermoelectric transport, which is sensitive to energy- and entropy-carrying degrees of freedom, provides a discriminating probe of emergent excitations in quantum materials. In this talk, I will discuss several recent developments in the measurement of thermal and thermoelectric transport in graphene-based nanostructures in the quantum limit. In the first part, we will discuss the nature of magneto-electronic hydrodynamics measured from the viscous heating of charge carriers in a graphene Corbino device. In the second part, we discuss thermal conduction in the quantum Hall-ferromagnetic phase diagram. Here we show clear signatures of phase transitions between different broken symmetry states in strongly correlated states that appear in the quantum limit. In the last part of the talk we will discuss thermoelectric transport in the lowest Landau level formed in disordered graphene quantum dots, where the combination of quantum confinement and disorder effects leads to a novel non-Fermi liquid behavior. We will discuss the implications of electrical and thermoelectric transport in this system in the context of strongly entangled quantum systems made possible by the strong interactions between localized states engineered in graphene quantum structures.

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