Weighted non-autonomous Lq(Lp) maximal regularity for complex systems under mixed regularity in space and time
Sebastian Bechtel (TU Delft - Electrical Engineering, Mathematics and Computer Science)
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Abstract
We show weighted non-autonomous Lq(Lp) maximal regularity for families of complex second-order systems in divergence form under a mixed regularity condition in space and time. To be more precise, we let p,q∈(1,∞) and we consider coefficient functions in Ctβ+ε with values in Cxα+ε subject to the parabolic relation 2β+α=1. If [Formula presented], we can likewise deal with spatial [Formula presented] regularity. The starting point for this result is a weak (p,q)-solution theory with uniform constants. Further key ingredients are a commutator argument that allows us to establish higher a priori spatial regularity, operator-valued pseudo differential operators in weighted spaces, and a representation formula due to Acquistapace and Terreni. Furthermore, we show p-bounds for semigroups and square roots generated by complex elliptic systems under a minimal regularity assumption for the coefficients.
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