Litcius/Paper detail

Experimental realization of quantum controlled teleportation of arbitrary two-qubit state via a five-qubit entangled state

Xiaofang Liu, Dongfen Li, Yundan Zheng, Xiaolong Yang, Jie Zhou, Yuqiao Tan, Mingzhe Liu

2021Chinese Physics B13 citationsDOI

Abstract

Quantum controlled teleportation is the transmission of the quantum state under the supervision of a third party. This paper presents the theoretical and experimental results of an arbitrary two-qubit quantum controlled teleportation scheme, in which the sender Alice only needs to perform two Bell state measurements and the receiver Bob can perform an appropriate unitary operation to reconstruct the arbitrary two-qubit states under the control of the supervisor Charlie. The operation process of the scheme is verified on the IBM quantum experience platform, and the accuracy of the transmitted quantum state is further checked by performing quantum state tomography. Meanwhile, a good fidelity is obtained by using the theoretical density matrix and the experimental density matrix. A sequence of photonic states is introduced to analyze the possible intercept–replace–resend, intercept–measure–resend, and entanglement–measure–resend attacks on this scheme. The results proved that our scheme is highly secure.

Topics & Concepts

Quantum teleportationQuantum channelPhysicsQuantum mechanicsQubitQuantum entanglementRealization (probability)Superdense codingTopology (electrical circuits)One-way quantum computerTeleportationQuantum networkBell stateMeasure (data warehouse)Quantum stateComputer scienceQuantumMathematicsStatisticsCombinatoricsDatabaseQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureNeural Networks and Reservoir Computing