Thermoelectric cooling properties of a quantum Hall Corbino device

Juan Herrera Mateos, Mariano A. Real, Christian Reichl, Alejandra Tonina, Werner Wegscheider, Werner Dietsche, and Liliana Arrachea
Phys. Rev. B 103, 125404 – Published 3 March 2021
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  • INTRODUCTION
  • THEORETICAL APPROACH
  • COOLING POWER
  • COOLING EFFICIENCY
  • SUMMARY AND CONCLUSIONS
  • ACKNOWLEDGMENTS
    • References

    Abstract

    We analyze the thermoelectric cooling properties of a Corbino device in the quantum Hall regime on the basis of experimental data of electrical conductance. We focus on the cooling power and the coefficient of performance within and beyond linear response. Thermovoltage measurements in this device reported by Real et al., [Phys. Rev. Appl. 14, 034019 (2020)] indicated that the transport takes place in the diffusive regime, without signatures of effects due to the electron-phonon interaction in a wide range of temperatures and filling factors. In this regime, the heat and charge currents by electrons can be described by a single transmission function. We infer this function from experimental data of conductance measurements and we calculate the cooling power and the coefficient of performance for a wide range of filling factors and temperatures, as functions of the thermal and electrical biases. We predict an interesting cooling performance in several parameter regimes.

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    • Received 22 December 2020
    • Revised 2 February 2021
    • Accepted 3 February 2021

    DOI:https://doi.org/10.1103/PhysRevB.103.125404

    ©2021 American Physical Society

    Physics Subject Headings (PhySH)

    1. Research Areas
    Electrical conductivityElectron thermal conductivityQuantum Hall effectThermoelectric effects
    1. Physical Systems
    Two-dimensional electron system
    Condensed Matter, Materials & Applied Physics

    Authors & Affiliations

    Juan Herrera Mateos1, Mariano A. Real2, Christian Reichl3, Alejandra Tonina2, Werner Wegscheider3, Werner Dietsche3,4, and Liliana Arrachea1

    • 1International Center for Advanced Studies and ICIFI, ECyT-UNSAM, 25 de Mayo y Francia, 1650 Buenos Aires, Argentina
    • 2Instituto Nacional de Tecnología Industrial, INTI and INCALIN-UNSAM, Av. Gral. Paz 5445, (1650) Buenos Aires, Argentina
    • 3Solid State Physics Laboratory, ETH Zürich, CH-8093 Zürich, Switzerland
    • 4Max-Plack-Institut für Festkörperforschung, Heisenbergstrasse 1, D-70569 Stuttgart, Germany

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    Issue

    Vol. 103, Iss. 12 — 15 March 2021

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