Most stochastic geometry-based analyses focus on the typical link or typical user, which implies spatial averaging over all links or users in a realization of the network. In the averaging process, the information about the performance of individual links is lost, i.e., the analysis does not reveal the disparity or concentration in the per-link performance. This drawback is overcome by the meta distribution of the signal-to-interference ratio (SIR), which reveals the full distribution of the performances of the individual links. After presenting results on the meta distribution for bipolar and cellular networks, we apply it to calculate the spatial outage capacity, which is the maximum density of links in a network such that each link satisfies an outage constraint.