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arxiv: 1802.00980 · v3 · pith:CU65LEJDnew · submitted 2018-02-03 · 🧮 math-ph · math.AC· math.MP

The first-order flexibility of a crystal framework

classification 🧮 math-ph math.ACmath.MP
keywords first-ordercrystalframeworkgeometricobtainedperiodicspaceaperiodic
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Four sets of necessary and sufficient conditions are obtained for the first-order rigidity of a periodic bond-node framework \C in R^d which is of crystallographic type. In particular, an extremal rank characterisation is obtained which incorporates a multi-variable matrix-valued transfer function \Psi_\C(z) defined on the product space C^d_* = (C\{0})^d. In general the first-order flex space is shown to be the closed linear span of polynomially weighted geometric velocity fields whose geometric multi-factors in C^d_* lie in a finite set. Paradoxically, first-order rigid crystal frameworks may possess nontrivial nondifferentiable continuous motions. The examples given are associated with aperiodic displacive phase transitions between periodic states.

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