Philippe Martin, Pierre Rouchon, Lionel Rosier
Published 2014-10-09Version 1
We consider linear one-dimensional parabolic equations with space dependent coefficients that are only measurable and that may be degenerate or singular. Considering generalized Robin-Neumann boundary conditions at both extremities, we prove the null controllability with one boundary control by following the flatness approach, which provides explicitly the control and the associated trajectory as series. Both the control and the trajectory have a Gevrey regularity in time related to the $L^p$ class of the coefficient in front of $u_t$. The approach applies in particular to the (possibly degenerate or singular) heat equation $(a(x)u_x)_x-u_t=0$ with $a(x)>0$ for a.e. $x\in (0,1)$ and $a+1/a \in L^1(0,1)$, or to the heat equation with inverse square potential $u_{xx}+(\mu / |x|^2)u-u_t=0$ with $\mu\ge 1/4$.
L2-Homogenization of Heat Equations on Tubular Neighborhoods
The Hardy inequality and the heat equation in twisted tubes
Sharp geometric condition for null-controllability of the heat equation on $\mathbb{R}^d$ and consistent estimates on the control cost
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