Weak type $(p,p)$ bounds for Schrödinger groups via generalized Gaussian estimates

Zhijie Fan

Published 2020-07-03Version 1

Let $L$ be a non-negative self-adjoint operator acting on $L^2(X)$, where $X$ is a space of homogeneous type with a dimension $n$. Suppose that the heat operator $e^{-tL}$ satisfies the generalized Gaussian $(p_0, p'_0)$-estimates of order $m$ for some $1\leq p_0 < 2$. It is known that the operator $(I+L)^{-s } e^{itL}$ is bounded on $L^p(X)$ for $s\geq n|{1/ 2}-{1/p}| $ and $ p\in (p_0, p_0')$ (see for example, \cite{Blunck2, BDN, CCO, CDLY, DN, Mi1}). In this paper we study the endpoint case $p=p_0$ and show that for $s_0= n\big|{1\over 2}-{1\over p_0}\big|$, the operator $(I+L)^{-{s_0}}e^{itL} $ is of weak type $(p_{0},p_{0})$, that is, there is a constant $C>0$, independent of $t$ and $f$ so that \begin{eqnarray*} \mu\left(\left\{x: \big|(I+L)^{-s_0}e^{itL} f(x)\big|>\alpha \right\} \right)\leq C (1+|t|)^{n(1 - {p_0\over 2}) } \left( {\|f\|_{p_0} \over \alpha} \right)^{p_0} , \ \ \ t\in{\mathbb R} \end{eqnarray*} for $\alpha>0$ when $\mu(X)=\infty$, and $\alpha>\big(\|f\|_{p_{0}}/\mu(X) \big)^{p_{0}}$ when $\mu(X)<\infty$. Our results can be applied to Schr\"odinger operators with rough potentials and %second order elliptic operators with rough lower order terms, or higher order elliptic operators with bounded measurable coefficients although in general, their semigroups fail to satisfy Gaussian upper bounds.