Talk Abstracts

The discrete Schrodinger equation on a two-dimensional honeycomb lattice is a fundamental tight-binding approximation model that describes the propagation of electrons on graphene. By the Fourier transform on the honeycomb lattice, the free Schrodinger flow can be represented by a certain oscillatory integral whose phase function has conical singularities at Dirac points as well as degeneracy at some other frequencies. We show that the degenerate frequencies are completely characterized by three symmetric periodic curves, and that the three curves meet at Dirac points. Based on this observation, we prove the dispersion estimates for the free flow estimating the oscillatory integral. Our proof is direct and uses only elementary methods. This talk is based on joint work with Yukihide Tadano (University of Hyogo) and Changhun Yang (Chungbuk National University).