Linear Optical Quantum Computation with Frequency-Comb Qubits and Passive Devices
Tomohiro Yamazaki, Tomoaki Arizono, Toshiki Kobayashi, Rikizo Ikuta, Takashi Yamamoto
Abstract
We propose a linear optical quantum computation scheme using time-frequency degrees of freedom. In this scheme, a qubit is encoded in single-photon frequency combs, and manipulation of the qubits is performed using time-resolving detectors, beam splitters, and optical interleavers. This scheme does not require active devices such as high-speed switches and electro-optic modulators and is robust against temporal and spectral errors, which are mainly caused by the detectors' finite resolution. We show that current technologies almost meet the requirements for fault-tolerant quantum computation.
Topics & Concepts
QubitQuantum computerPhysicsFrequency combQuantum mechanicsQuantum opticsOptical frequency combComputationQuantumComputer scienceLaserAlgorithmQuantum Information and CryptographyPhotonic and Optical DevicesOptical Network Technologies