Probing nonequilibrium mechanical response of living chiral crystals
ORAL
Abstract
Developing starfish embryos can form living chiral crystals (LCC). Individual embryos swim, rotate, and interact non-reciprocally with each other. Broken time reversal symmetry leads to emergence of a variety of rich phenomena in this system, including chiral displacement waves. We investigate the interplay between nonequilibrium thermodynamics and mechanics, by applying frequency-dependent mechanical perturbations on LCCs. Interestingly, displacement waves can be excited by mechanical perturbation of LCC, and disturbed crystalline order can be restored. Our results can have potential implications for design and development of metamaterials.
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Presenters
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Yu-Chen Chao
Massachusetts Institute of Technology, Harvard University
Authors
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Yu-Chen Chao
Massachusetts Institute of Technology, Harvard University
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Jinghui Liu
Massachusetts Institute of Technology MI, Massachusetts Institute of Technology
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Junang Li
Massachusetts Institute of Technology, Department of Physics, Massachusetts Institute of Technology, Massachusetts Institute of Technology MIT, Massachusetts Institute of Technology MI
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Jordan Horowitz
University of Michigan
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Nikta Fakhri
Massachusetts Institute of Technology, Department of Physics, Massachusetts Institute of Technology, Massachusetts Institute of Technology MI