I would consider using
std::vector with a custom allocator optimized for 4-5 elements (pulling those from a pool) as the simplest and most viable solution. This is also the only solution that I'd expect to actually give a net benefit.
std::deque probably does not help, although it may seem that way from a textbook point of view. It might actually hurt. Deques reduce the overhead of copying data from O(n) to O(1), but they are not magically allocation-free. On the contrary, they may cause a lot more allocations than using a vector would.
Deques are usually implemented either as vector of vectors or as circular buffer. In the latter case, you have exactly the same reallocation overhead as with using
std::vector except you can't mitigate it by calling
reserve(), and in the former case you have two allocations where you would otherwise only have one.
Embedding the first few objects directly into your custom vector class or into an on-stack vararray as in Bgie's answer is very tempting, and this would indeed be a great solution for not too many not too large vectors.
However, since you are having a performance problem from creating those vectors, one can conclude that you are not using just 5 or 10 vectors, but many of them (otherwise it wouldn't really matter, it wouldn't be measurable!). Which means putting data on the stack would likely cause an eventual stack overflow.
This may however be a good solution if all your vectors are heap-allocated anyway. There is no real difference whether you allocate a few hundred bytes more when allocating the container itself, and there is no risk overflowing the stack. So in that case, you'd effectively save one allocation.