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Phonon heat transfer across a vacuum through quantum fluctuations

Author

Listed:
  • King Yan Fong

    (University of California)

  • Hao-Kun Li

    (University of California)

  • Rongkuo Zhao

    (University of California)

  • Sui Yang

    (University of California)

  • Yuan Wang

    (University of California)

  • Xiang Zhang

    (University of California
    Faculties of Science and Engineering, The University of Hong Kong)

Abstract

Heat transfer in solids is typically conducted through either electrons or atomic vibrations known as phonons. In a vacuum, heat has long been thought to be transferred by radiation but not by phonons because of the lack of a medium1. Recent theory, however, has predicted that quantum fluctuations of electromagnetic fields could induce phonon coupling across a vacuum and thereby facilitate heat transfer2–4. Revealing this unique quantum effect experimentally would bring fundamental insights to quantum thermodynamics5 and practical implications to thermal management in nanometre-scale technologies6. Here we experimentally demonstrate heat transfer induced by quantum fluctuations between two objects separated by a vacuum gap. We use nanomechanical systems to realize strong phonon coupling through vacuum fluctuations, and observe the exchange of thermal energy between individual phonon modes. The experimental observation agrees well with our theoretical calculations and is unambiguously distinguished from other effects such as near-field radiation and electrostatic interaction. Our discovery of phonon transport through quantum fluctuations represents a previously unknown mechanism of heat transfer in addition to the conventional conduction, convection and radiation. It paves the way for the exploitation of quantum vacuum in energy transport at the nanoscale.

Suggested Citation

  • King Yan Fong & Hao-Kun Li & Rongkuo Zhao & Sui Yang & Yuan Wang & Xiang Zhang, 2019. "Phonon heat transfer across a vacuum through quantum fluctuations," Nature, Nature, vol. 576(7786), pages 243-247, December.
  • Handle: RePEc:nat:nature:v:576:y:2019:i:7786:d:10.1038_s41586-019-1800-4
    DOI: 10.1038/s41586-019-1800-4
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    Cited by:

    1. Andrea Cupertino & Dongil Shin & Leo Guo & Peter G. Steeneken & Miguel A. Bessa & Richard A. Norte, 2024. "Centimeter-scale nanomechanical resonators with low dissipation," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    2. Zhujing Xu & Peng Ju & Xingyu Gao & Kunhong Shen & Zubin Jacob & Tongcang Li, 2022. "Observation and control of Casimir effects in a sphere-plate-sphere system," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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