研究実績の概要 |
1. Designed and simulated the key mechanism to achieve interoperability between different types of quantum repeater networks; this is the primary process needed for Quantum Internet routers. In our scheme, the creation of Bell pairs where each qubit is encoded in a different error correcting scheme is the primary service provided by Quantum Internet routers. 2. Created artificial topologies for use in large-scale quantum Internet simulation by extracting subsets of the nodes in classical Internet autonomous systems. 3. Established a technology-independent hardware architecture for quantum routers, building on the concepts of quantum multicomputers using optical interconnects. 4. Simulated quantum network coding using Bell pairs with fidelity F < 1.0, as a possible means of using a Quantum Internet efficiently. 5. Designed circuits for executing Quantum Byzantine Agreement, as an application to be run on top of a Quantum Internet.
|