Shuaifeng Li, Yubin Oh, Seong Jae Choi, Panayotis G. Kevrekidis, Jinkyu Yang
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On-demand realization of topological states using Miura-folded metamaterials
Recent advancements in topological metamaterials have unveiled fruitful
physics and numerous applications. Whereas initial efforts focus on achieving
topologically protected edge states through principles of structural symmetry,
the burgeoning field now aspires to customize topological states, tailoring
their emergence and frequency. Here, our study presents the realization of
topological phase transitions utilizing compliant mechanisms on the facets of
Miura-folded metamaterials. This approach induces two opposite topological
phases, leading to topological states at the interface. Moreover, we exploit
the unique folding behavior of Miura-folded metamaterials to tune the frequency
of topological states and dynamically toggle their presence. Our research not
only paves the way for inducing topological phase transitions in Miura-folded
structures but also enables the on-demand control of topological states, with
promising applications in wave manipulation and vibration isolation.
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