Estimates for the covariant derivative of the heat semigroup on differential forms, and covariant Riesz transforms

Abstract

With j≥ 0 is the uniquely determined self-adjoint realization of the Laplace operator acting on j-forms on a geodesically complete Riemannian manifold M and ∇ the Levi-Civita covariant derivative, we prove amongst other things a Li-Yau type heat kernel bound for ∇ e -tj , if the curvature tensor of M and its covariant derivative are bounded, an exponentially weighted Lp bound for the heat kernel of ∇ e -tj , if the curvature tensor of M and its covariant derivative are bounded, that ∇ e -tj is bounded in Lp for all 1≤ p<∞, if the curvature tensor of M and its covariant derivative are bounded, and a second order Davies-Gaffney estimate (in terms of ∇ and j) for e -tj for small times, if the j-th degree Bochner-Lichnerowicz potential Vj=j-∇∇ of M is bounded from below (where V1=Ric), which is shown to fail for large times if Vj is bounded. Based on these results, we formulate a conjecture on the boundedness of the covariant local Riesz-transform ∇ (j+)-1/2 in Lp for all 1≤ p<∞ (which we prove for 1≤ p≤ 2), and explain its implications to geometric analysis, such as the Lp-Calder\'on-Zygmund inequality. Our main technical tool is a Bismut derivative formula for ∇ e -tj .