Parabolic equations with exponential nonlinearity and measure data

Abstract: Let $\Omega$ be a bounded domain in ${\mathbb R}^N$ and $T>0$. We study the problem \begin{equation} (P)\left{ \begin{array}{lll} u_t - \Delta u \pm g(u) &= \mu \quad &\text{in } Q_T:=\Omega \times (0,T) \ \phantom{------,} u&=0 &\text{on } \partial \Omega \times (0,T)\ \phantom{----,} u(.,0) &=\omega &\text{in } \Omega. \end{array} \right. \end{equation} where $\mu$ and $\omega$ are bounded Radon measures in $Q_T$ and $\Omega$ respectively and $g(u) \sim e^{a |u|^q} $ with $a>0$ and $q \geq 1$. We provide a sufficient condition in terms of fractional maximal potentials of $\mu$ and $\omega$ for solving (P).