The functionality you're looking for is called stream compaction.
You probably do need to provide an array that contains room for 4 solutions per thread because attempting to directly store the results in a compact form is likely to create so many dependencies between the threads that the performance gained in being able to copy less data back to the host is lost by a longer kernel execution time. The exception to this is if almost all of the threads find no solutions. In that case, you might be able to use an atomic operation to maintain an index into an array. So, for each solution that is found, you would store it in an array at an index and then use an atomic operation to increase the index. I think it would be safe to use atomicAdd() for this. Before storing a result, the thread would use atomicAdd() to increase the index by one. atomicAdd() returns the old value, and the thread can store the result using the old value as the index.
However, given a more common situation, where there's a fair number of results, the best solution will be to perform a compacting operation as a separate step. One way to do this is with
thrust::copy_if. See this question for some more background.