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arxiv: 2305.18186 · v4 · pith:DUVOEUBQ · submitted 2023-05-29 · math-ph · cond-mat.mes-hall· cond-mat.mtrl-sci· math.AP· math.DS· math.MP

From incommensurate bilayer heterostructures to Allen-Cahn: An exact thermodynamic limit

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classification math-ph cond-mat.mes-hallcond-mat.mtrl-scimath.APmath.DSmath.MP
keywords energyallen-cahnbilayerheterostructureslimitanglesapplyapproximating
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We give a complete and rigorous derivation of the mechanical energy for twisted 2D bilayer heterostructures without any approximation beyond the existence of an empirical many-body site energy. Our results apply to both the continuous and discontinuous continuum limit. Approximating the intralayer Cauchy-Born energy by linear elasticity theory and assuming an interlayer coupling via pair potentials, our model reduces to a modified Allen-Cahn functional. We rigorously control the error, and, in the case of sufficiently smooth lattice displacements, provide a rate of convergence for twist angles satisfying a Diophantine condition.

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