A filtered Lie splitting method for the Zakharov system with low regularity estimates

In this paper, we present an error estimate for the filtered Lie splitting scheme applied to the Zakharov system, characterized by solutions exhibiting very low regularity across all dimensions. Our findings are derived from the application of multilinear estimates established within the framework of discrete Bourgain spaces. Specifically, we demonstrate that when the solution $(E,z,z_t) \in H^{s+r+1/2}\times H^{s+r}\times H^{s+r-1}$, the error in $H^{r+1/2}\times H^{r}\times H^{r-1}$ is $\mathcal{O}(\tau^{s/2})$ for $s\in(0,2]$, where $r=\max(0,\frac d2-1)$. To the best of our knowledge, this represents the first explicit error estimate for the splitting method based on the original Zakharov system, as well as the first instance where low regularity error estimates for coupled equations have been considered within the Bourgain framework. Furthermore, numerical experiments confirm the validity of our theoretical results.