Simultaneous Multiparty Quantum Teleportation Supervised by a Controller
- URL: http://arxiv.org/abs/2410.03711v1
- Date: Fri, 27 Sep 2024 12:20:25 GMT
- Title: Simultaneous Multiparty Quantum Teleportation Supervised by a Controller
- Authors: Nikhita Singh, Ravi S. Singh,
- Abstract summary: Quantum network harbours a technology of multiparty transmission and computation of quantum information.
We design a quantum circuit comprising of Hadamard and controlled-Not gates for preparation of a cluster state of symmetric and antisymmetric Bell pairs.
This seventeen qubits quantum channel is employed to strategize a simultaneous multiparty (quattro directional) quantum teleportation protocol.
- Score: 0.2302001830524133
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Quantum network harbours a technology of multiparty transmission and computation of quantum information. We here design a quantum circuit comprising of Hadamard and controlled-Not gates for preparation of a cluster state of symmetric and antisymmetric Bell pairs involving seventeen qubits which is later on utilized as a quantum channel. This seventeen qubits quantum channel is employed to strategize a simultaneous multiparty (quattro directional) quantum teleportation protocol in which four senders (Alice, Bob, Charlie and David) transmit their arbitrary unknown two-qubit states to respective four receivers (Fancy1, Fancy2, Fancy3 and Fancy4) under the supervision of a controller Elle. After successful accomplishment of the protocol, we assess and compare our scheme with contemporary protocols based on quantum (classical) resource consumption, transmitted qubits, operation complexity and efficiency. We found that intrinsic efficiency of our protocol pegs at 21.65 percent.
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