Quantum gate teleportation between separated qubits in a trapped-ion processor

Quantum gate teleportation between separated qubits in a trapped-ion processor

Large-scale quantum computers will require quantum gate operations between widely separated qubits. A method for implementing such operations, known as quantum gate teleportation (QGT), requires only local operations, classical communication, and shared entanglement. We demonstrate QGT in a scalable...

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Veröffentlicht in:arXiv.org 2019-08
Hauptverfasser: Wan, Yong, Kienzler, Daniel, Erickson, Stephen D, Mayer, Karl H, Ting Rei Tan, Wu, Jenny J, Vasconcelos, Hilma M, Glancy, Scott, Knill, Emanuel, Wineland, David J, Wilson, Andrew C, Leibfried, Dietrich
Format: Artikel
Sprache:eng
Schlagworte:
Confidence intervals
Data processing
Microprocessors
Physics - Quantum Physics
Quantum computers
Quantum computing
Quantum entanglement
Quantum phenomena
Quantum teleportation
Quantum theory
Qubits (quantum computing)
Real time operation
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Zusammenfassung:Large-scale quantum computers will require quantum gate operations between widely separated qubits. A method for implementing such operations, known as quantum gate teleportation (QGT), requires only local operations, classical communication, and shared entanglement. We demonstrate QGT in a scalable architecture by deterministically teleporting a controlled-NOT (CNOT) gate between two qubits in spatially separated locations in an ion trap. The entanglement fidelity of our teleported CNOT is in the interval [0.845, 0.872] at the 95% confidence level. The implementation combines ion shuttling with individually-addressed single-qubit rotations and detections, same- and mixedspecies two-qubit gates, and real-time conditional operations, thereby demonstrating essential tools for scaling trapped-ion quantum computers combined in a single device.
ISSN:2331-8422
DOI:10.48550/arxiv.1902.02891