We propose a scalable and robust architecture for one-way quantum computationusing coupled networks of superconducting transmission line resonators. In ourprotocol, quantum information is encoded into the long-lived photon states ofthe resonators, which have a much longer coherence time than the usualsuperconducting qubits. Each resonator contains a charge qubit used for thestate initialization and local projective measurement of the photonic qubit.Any pair of neighboring photonic qubits are coupled via a mediator chargequbit, and large photonic cluster states can be created by applyingStark-shifted Rabi pulses to these mediator qubits. The distinct advantage ofour architecture is that it combines both the excellent scalability of thesolid-state systems and the long coherence time of the photonic qubits.Furthermore, this architecture is very robust against the parameter variations.
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