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Dualities and non-Abelian mechanics

Author

Listed:
  • Michel Fruchart

    (James Franck Institute, University of Chicago
    University of Chicago)

  • Yujie Zhou

    (Universiteit Leiden)

  • Vincenzo Vitelli

    (James Franck Institute, University of Chicago
    University of Chicago)

Abstract

Dualities are mathematical mappings that reveal links between apparently unrelated systems in virtually every branch of physics1–8. Systems mapped onto themselves by a duality transformation are called self-dual and exhibit remarkable properties, as exemplified by the scale invariance of an Ising magnet at the critical point. Here we show how dualities can enhance the symmetries of a dynamical matrix (or Hamiltonian), enabling the design of metamaterials with emergent properties that escape a standard group theory analysis. As an illustration, we consider twisted kagome lattices9–15, reconfigurable mechanical structures that change shape by means of a collapse mechanism9. We observe that pairs of distinct configurations along the mechanism exhibit the same vibrational spectrum and related elastic moduli. We show that these puzzling properties arise from a duality between pairs of configurations on either side of a mechanical critical point. The critical point corresponds to a self-dual structure with isotropic elasticity even in the absence of spatial symmetries and a twofold-degenerate spectrum over the entire Brillouin zone. The spectral degeneracy originates from a version of Kramers’ theorem16,17 in which fermionic time-reversal invariance is replaced by a hidden symmetry emerging at the self-dual point. The normal modes of the self-dual systems exhibit non-Abelian geometric phases18,19 that affect the semiclassical propagation of wavepackets20, leading to non-commuting mechanical responses. Our results hold promise for holonomic computation21 and mechanical spintronics by allowing on-the-fly manipulation of synthetic spins carried by phonons.

Suggested Citation

  • Michel Fruchart & Yujie Zhou & Vincenzo Vitelli, 2020. "Dualities and non-Abelian mechanics," Nature, Nature, vol. 577(7792), pages 636-640, January.
  • Handle: RePEc:nat:nature:v:577:y:2020:i:7792:d:10.1038_s41586-020-1932-6
    DOI: 10.1038/s41586-020-1932-6
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    Cited by:

    1. Qicheng Zhang & Li He & Eugene J. Mele & Bo Zhen & A. T. Charlie Johnson, 2023. "General duality and magnet-free passive phononic Chern insulators," Nature Communications, Nature, vol. 14(1), pages 1-6, December.
    2. Florian Allein & Adamantios Anastasiadis & Rajesh Chaunsali & Ian Frankel & Nicholas Boechler & Fotios K. Diakonos & Georgios Theocharis, 2023. "Strain topological metamaterials and revealing hidden topology in higher-order coordinates," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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