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Transverse Mode-Encoded Quantum Gate on a Silicon Photonic Chip

Lan-Tian Feng, Ming Zhang, Xiao Xiong, Di Liu, Yu-Jie Cheng, Fang-Ming Jing, Xiao-Zhuo Qi, Yang Chen, De-Yong He, Guo-Ping Guo, Guang-Can Guo, Dao-Xin Dai, Xi-Feng Ren

2022Physical Review Letters43 citationsDOIOpen Access PDF

Abstract

As an important degree of freedom (d.o.f.) in photonic integrated circuits, the orthogonal transverse mode provides a promising and flexible way to increase communication capability, for both classical and quantum information processing. To construct large-scale on-chip multimode multi-d.o.f.s quantum systems, a transverse mode-encoded controlled-NOT (CNOT) gate is necessary. Here, with the help of our new transverse mode-dependent directional coupler and attenuator, we demonstrate the first multimode implementation of a 2-qubit quantum gate. The ability of the gate is demonstrated by entangling two separated transverse mode qubits with an average fidelity of 0.89±0.02 and the achievement of 10 standard deviations of violations in the quantum nonlocality verification. In addition, a fidelity of 0.82±0.01 is obtained from quantum process tomography used to completely characterize the CNOT gate. Our work paves the way for universal transverse mode-encoded quantum operations and large-scale multimode multi-d.o.f.s quantum systems.

Topics & Concepts

Controlled NOT gatePhysicsTransverse modeQuantum technologyTransverse planeQuantumQuantum gateQubitPhotonicsQuantum informationQuantum information scienceQuantum imagingQuantum mechanicsQuantum sensorOptoelectronicsMulti-mode optical fiberQuantum metrologyCavity quantum electrodynamicsOpen quantum systemQuantum error correctionQuantum networkQuantum channelQuantum nonlocalityQuantum simulatorQuantum circuitQuantum opticsQuantum entanglementQuantum computerQuantum processQuantum dotQuantum point contactQuantum Information and CryptographyQuantum optics and atomic interactionsMechanical and Optical Resonators
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