Abstract.
This work is concerned with the system
(S) {u t =Δu − χ∇ (u∇v) for x∈Ω, t>0Γ v t =Δv+(u−1) for x∈Ω, t>0
where Γ, χ are positive constants and Ω is a bounded and smooth open set in ℝ2. On the boundary ∂Ω, we impose no-flux conditions:
(N) ∂u∂n =∂v∂n =0 for x∈∂ Ω, t>0
Problem (S), (N) is a classical model to describe chemotaxis corresponding to a species of concentration u(x, t) which tends to aggregate towards high concentrations of a chemical that the species releases. When completed with suitable initial values at t=0 for u(x, t), v(x, t), the problem under consideration is known to be well posed, locally in time. By means of matched asymptotic expansions techniques, we show here that there exist radial solutions exhibiting chemotactic collapse. By this we mean that u(r, t) →Aδ(y) as t→T for some T<∞, where A is the total concentration of the species.
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Received 9 March 1995; received in revised form 25 December 1995
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Herrero, M., Velázquez, J. Chemotactic collapse for the Keller-Segel model. J Math Biol 35, 177–194 (1996). https://doi.org/10.1007/s002850050049
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DOI: https://doi.org/10.1007/s002850050049