Decay estimates for higher order elliptic operators

Abstract

This paper is mainly devoted to study time decay estimates of the higher-order Schr\"odinger type operator H=(-)m+V(x) in Rn for n>2m and m∈N. For certain decay potentials V(x), we first derive the asymptotic expansions of resolvent RV(z) near zero threshold with the presence of zero resonance or zero eigenvalue, as well identify the resonance space for each kind of zero resonance which displays different effects on time decay rate. Then we establish Kato-Jensen type estimates and local decay estimates for higher order Schr\"odinger propagator e-itH in the presence of zero resonance or zero eigenvalue. As a consequence, the endpoint Strichartz estimate and Lp-decay estimates can also be obtained. Finally, by a virial argument, a criterion on the absence of positive embedded eigenvalues is given for (-)m+V(x) with a repulsive potential.