Open AccessWaves in Honeycomb Structures
Author(s) -
Charles Fefferman,
Michael I. Weinstein
Publication year - 2013
Publication title -
journées équations aux dérivées partielles
Language(s) - English
Resource type - Journals
eISSN - 2118-9366
pISSN - 0752-0360
DOI - 10.5802/jedp.95
Subject(s) - dirac equation , nonlinear system , dirac (video compression format) , gravitational singularity , conical surface , physics , dirac comb , lattice (music) , mathematical physics , nonlinear schrödinger equation , classical mechanics , dirac algebra , dirac spinor , quantum mechanics , mathematics , geometry , acoustics , neutrino
We review recent work of the authors on the non-relativistic Schr\"odinger equation with a honeycomb lattice potential, $V$. In particular, we summarize results on (i) the existence of Dirac points, conical singularities in dispersion surfaces of $H_V=-\Delta+V$ and (ii) the two-dimensional Dirac equations, as a large, but finite time, effective description of $e^{-iH_Vt}\psi_0$, for data $\psi_0$, which is spectrally localized at a Dirac point. We conclude with a formal derivation and discussion of the effective large time evolution for the nonlinear Schr\"odinger - Gross Pitaevskii equation for small amplitude initial conditions, $\psi_0$. The effective dynamics are governed by a nonlinear Dirac system.
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