论文信息 - ON THE DENSITY OF THE RANGE OF THE SEMIGROUP FOR SEMILINEAR HEAT EQUATIONS

ON THE DENSITY OF THE RANGE OF THE SEMIGROUP FOR SEMILINEAR HEAT EQUATIONS

We consider the semilinear heat equation u t − Δu + f(u) = 0 in a bounded domain Ω ⊂ R n , n ≥ 1, for t > 0 with Dirichlet boundary conditions u = 0 on ∂Ω × (0,∞). For T > 0 fixed we consider the map S(T) : C 0 (Ω) → C 0 (Ω) such that S(T )u 0 = u (x, T) where u is the solution of this heat equation with initial data u(x, 0) = u 0(x) and C 0(Ω) is the space of uniformly continuous functions on Ω that vanish on its boundary. When f is globally Lipschitz and for any T > 0 we prove that the range of S(T)is dense in C 0(Ω). Our method of proof combines backward uniqueness results, a variational approach to the problem of the density of the range of the semigroup for linear heat equations with potentials and a fixed point technique. These methods are similar to those developed by the authors in an earlier paper in the study of the approximate controllability of semilinear heat equations.

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