Quantitative Landis-type result for Dirac operators

Abstract

We study quantitative unique continuation at infinity for Dirac equations with bounded matrix-valued potentials. For the massless Dirac operator Dn in Rn, we establish a Landis-type estimate showing that the vanishing order of any nontrivial bounded solution of ( Dn + V ) = 0 satisfies a lower bound of order (- R2 ( R)2) as |x|=R ∞; the quadratic growth in the exponent is sharp, in view of previous known results. Our proof follows a Bourgain--Kenig type approach based on a Carleman inequality for Dirac operators which relies on a local H\"older regularity result, which we also prove. In two dimension, we obtain improved quantitative estimates under symmetry assumptions on the potential V and for real-valued solutions. Finally, we also derive qualitative Landis-type results for Dirac equations with decaying potentials, including critical decay rates.