A new result for boundedness in the quasilinear parabolic-parabolic Keller-Segel model (with logistic source)

Abstract

The current paper considers the boundedness of solutions to the following quasilinear Keller-Segel model (with logistic source) \arrayll ut = ∇·(D(u)∇ u)-∇·(u∇ v)+μ (u-u2), x∈ , t>0,\\ vt- v = u-v, x∈ , t>0,\\ (D(u)∇ u- u· ∇ v)· = ∂ v∂=0, x∈ ∂, t>0,\\ u(x,0) = u0(x), v(x,0) = v0(x),\ \ x∈ , array. where ⊂RN(N≥1) is a bounded domain with smooth boundary ∂, >0 and μ≥0. We prove that for nonnegative and suitably smooth initial data (u0, v0), if D(u)≥ CD(u+1)m-1 for all u≥ 0 with some CD > 0 and some m>2-2N\1,λ0\[\1,λ0\-μ]+ or m=2-2N and CD>CGN(1+\|u0\|L1())3(2-2N)2\1,λ0\, the (KS) possesses a global classical solution which is bounded in × (0,∞), where CGN and λ0 are the constants which are corresponding to the Gagliardo--Nirenberg inequality and the maximal Sobolev regularity. To our best knowledge, this seems to be the first rigorous mathematical result which (precisely) gives the relationship between m and μ that yields to the boundedness of the solutions.