Quantum entanglement is a phenomenon that fascinates scientists around the world. The very idea that two particles are intimately bound together and that a change of state in one instantly causes a change in the other, even if they are millions of light years apart, remains intriguing. This action, once described by the theoretical physicist Albert Einstein as "spooky action at a distance", is now the basis for applications in information processing and detection. Entangled photons have already been successfully exchanged over short distances in various experiments using free beams in the air or via optical fibres laid in the ground. However, the exchange over longer distances still presents technological challenges.
The solution: the direct exchange of entangled photons in space via optical satellite links.
Within HyperSpace, a team of scientists from Europe and Canada will study the distribution of complex (high-dimensional) entangled photons via satellite. It paves the path to take quantum communication research to a whole new level and to solve together technological challenges whose results will benefit society. The overarching goal of HyperSpace is to further develop satellite-based quantum communications by appropriate experiments into scalable global quantum networks. This global quantum network will interconnect a wide range of quantum processors using a variety of quantum channels, just as in the conventional Internet.
To facilitate deployment on scalable small satellites, the team seeks not only to develop new
protocols based on quantum hyperentanglement, but also to transfer these protocols into
scalable photonic integration platforms. Applications of HyperSpace in the field of information technology and sensors will be extensive. For instance, a global quantum internet will enable significantly improved applications, such as more accurate clock synchronization, highly efficient cloud information, or even highly secure data transmission through quantum cryptography that relies on physics. Some of these applications were previously not imaginable.
More information on
https://hyperspace.international(odnośnik otworzy się w nowym oknie).
References:
https://www.iof.fraunhofer.de/en/pressrelease/2022/hyperspace.html(odnośnik otworzy się w nowym oknie)https://inrs.ca/en/news/propelling-quantum-research-across-continents/(odnośnik otworzy się w nowym oknie)