We discuss two types of defects in two-dimensional lattices, namely (1) translational dislocations and (2) defects produced by a rotation of the lattice in a half-space. For Lipschitz-continuous and ℤ2-periodic potentials, we first show that translational dislocations produce spectrum inside the gaps of the periodic problem; we also give estimates for the (integrated) density of the associated surface states. We then study lattices with a small angle defect where we find that the gaps of the periodic problem fill with spectrum as the defect angle goes to zero. To introduce our methods, we begin with the study of dislocation problems on the real line and on an infinite strip. Finally, we consider examples of muffin tin type. Our overview refers to results in [HK1, HK2].
CITATION STYLE
Hempel, R., & Kohlmann, M. (2012). Dislocation problems for periodic schrödinger operators and mathematical aspects of small angle grain boundaries. In Operator Theory: Advances and Applications (Vol. 221, pp. 421–432). Springer International Publishing. https://doi.org/10.1007/978-3-0348-0297-0_23
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