Abstract
Intrinsic Harnack estimates for non-negative solutions of singular, quasi-linear, parabolic equations, are established, including the prototype p -Laplacean equation (1.4) below. For p in the super-critical range \frac{2N}{N+1}<p<2 , the Harnack inequality is shown to hold in a parabolic form, both forward and backward in time, and in a elliptic form at fixed time. These estimates fail for the heat equation ( p\to2 ). It is shown by counterexamples, that they fail for p in the sub-critical range 1<p\le \frac{2N}{N+1} . Thus the indicated super-critical range is optimal for a Harnack estimate to hold. The novel proofs are based on measure theoretical arguments, as opposed to comparison principles and are sufficiently flexible to hold for a large class of singular parabolic equation including the porous medium equation and its quasi-linear versions.
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