The project originally aimed at adapting and exploiting space division multiplexing (SDM), a technology which recently received a lot of attention in telecommunication technologies as a method for increasing communication channels data capacity, to demonstrate the parallel storage of a large number of photonic qubits in a quantum memory based on a cold atomic ensemble with near-unity efficiency. The project's approach stood out in that, by using SDM, the parallelization of the storage protocol could be done while preserving the memory efficiency for each spatial mode. This, in turn, circumvents the typical tradeoff between increased rate and
memory efficiency, as often encountered when resorting to other multiplexing methods.
The project unfortunately failed to achieve critical objectives or milestones and, as such, has been severely delayed. However, the work carried out within this fellowship serves the scientific community as a whole and has an important impact on the technological development of quantum memories from an industrial standpoint. The demonstration of a multiplexed protocol compatible with atom-based quantum memories is valuable for industries hoping to transfer quantum information over long distances.