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Description
The aim of this talk is to provide a description of the reachable space for the heat equation with various lower order terms, set in the euclidean ball of $\mathbb{R}^d$ centered at $0$ and of radius one and controlled from the whole external boundary. Namely, we consider the case of linear heat equations with lower order terms of order $0$ and $1$, and the case of a semilinear heat equations.
In the linear case, we prove that any function which can be extended as an holomorphic function in a set of the form $\Omega_\alpha = \{ z\in\mathbb{C}^d, \, |\Re(z)| + \alpha |\Im(z)| < 1\}$ for some $\alpha \in (0,1)$ and which admits a continuous extension up to $\overline\Omega_\alpha$ belongs to the reachable space. In the semilinear case, we prove a similar result for sufficiently small data. Our proofs are based on well-posedness results for the heat equation in a suitable space of holomorphic functions over $\Omega_\alpha$ for $\alpha > 1$.
This talk is based on a joint work with Adrien Tendani-Soler (U. Bourgogne).
