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Blow-up phenomena for positive solutions of semilinear diffusion equations in a half-space: the influence of the dispersion kernel (2004.09102v1)

Published 20 Apr 2020 in math.AP

Abstract: We consider the semilinear diffusion equation $\partial$ t u = Au + |u| $\alpha$ u in the half-space R N + := R N --1 x (0, +$\infty$), where A is a linear diffusion operator, which may be the classical Laplace operator, or a fractional Laplace operator, or an appropriate non regularizing nonlocal operator. The equation is supplemented with an initial data u(0, x) = u 0 (x) which is nonnegative in the half-space R N + , and the Dirichlet boundary condition u(t, x ' , 0) = 0 for x ' $\in$ R N --1. We prove that if the symbol of the operator A is of order a|$\xi$| $\beta$ near the origin $\xi$ = 0, for some $\beta$ $\in$ (0, 2], then any positive solution of the semilinear diffusion equation blows up in finite time whenever 0 < $\alpha$ $\le$ $\beta$/(N + 1). On the other hand, we prove existence of positive global solutions of the semilinear diffusion equation in a half-space when $\alpha$ > $\beta$/(N + 1). Notice that in the case of the half-space, the exponent $\beta$/(N + 1) is smaller than the so-called Fujita exponent $\beta$/N in R N. As a consequence we can also solve the blow-up issue for solutions of the above mentioned semilinear diffusion equation in the whole of R N , which are odd in the x N direction (and thus sign changing).

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