Spectral Properties of Periodic Elastic Beam Hamiltonians on Hexagonal Lattices

Burak Hatinoglu

Elastic beam Hamiltonians are constructed out of Euler-Bernoulli beams, each governed by a scalar valued fourth-order Schrödinger operator equipped with a real symmetric potential. Unlike the second-order Schrödinger operator commonly applied in quantum graph literature, here the self-adjoint vertex conditions encode geometry of the graph by their dependence on angles at which edges are met. In this talk, I will firstly consider spectral properties of this Hamiltonian with periodic potentials on a special equal-angle lattice, known as graphene or honeycomb lattice. I will also discuss spectral properties for the same operator on lattices in the geometric neighborhood of graphene. This talk is based on a recent joint work with Mahmood Ettehad (University of Minnesota), https://arxiv.org/pdf/2110.05466.pdf.

http://scgp.stonybrook.edu/video_portal/video.php?id=5267

Simons- Workshop: Ergodic Operators and Quantum Graphs