Implementing a Two-Photon Three-Degrees-of-Freedom Hyper-Parallel Controlled Phase Flip Gate Through Cavity-Assisted Interactions |
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| Authors: | Hai-Rui Wei Wen-Qiang Liu Ning-Yang Chen |
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| Affiliation: | School of Mathematics and Physics, University of Science and Technology Beijing, Beijing, 100083 China |
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| Abstract: | Hyper-parallel quantum information processing is a promising and beneficial research field. Herein, a method to implement a hyper-parallel controlled-phase-flip (hyper-CPF) gate for frequency-, spatial-, and time-bin-encoded qubits by coupling flying photons to trapped nitrogen vacancy (NV) defect centers is presented. The scheme, which differs from their conventional parallel counterparts, is specifically advantageous in decreasing against the dissipate noise, increasing the quantum channel capacity, and reducing the quantum resource overhead. The gate qubits with frequency, spatial, and time-bin degrees of freedom (DOF) are immune to quantum decoherence in optical fibers, whereas the polarization photons are easily disturbed by the ambient noise. |
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| Keywords: | controlled-phase-flip gates nitrogen vacancy defect centers parity gates quantum computation |
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