Toward fault-tolerant large-scale universal optical quantum computing with continuous-variable quantum teleportation

We are now pursuing the realization of large-scale universal optical quantum computers with our original continuous-variable quantum teleportation methodology. There are several points. One is that we can build a logical qubit for quantum error correction with a single pulse of light. It is totally different situation from other systems like super-conducting qubits, spins, and ions, which are two-level systems and thus they need many physical qubits and entanglement among them for building a logical qubit. We can replace the fragile multipartite entanglement with quantum correlation of photons in a single pulse of light. Another point of our methodology is that we do not have to be worried about decoherence of the system. We are using our original time-domain multiplexing methodology and make a measurement before the decoherence. We can make a quantum computing forever in principle.