Entanglement in a Quantum Annealing Processor

Entanglement in a Quantum Annealing Processor

Entanglement lies at the core of quantum algorithms designed to solve problems that are intractable by classical approaches. One such algorithm, quantum annealing (QA), provides a promising path to a practical quantum processor. We have built a series of architecturally scalable QA processors consis...

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Veröffentlicht in:Physical review. X 2014-05, Vol.4 (2), p.021041, Article 021041
Hauptverfasser: Lanting, T., Przybysz, A. J., Smirnov, A. Yu, Spedalieri, F. M., Amin, M. H., Berkley, A. J., Harris, R., Altomare, F., Boixo, S., Bunyk, P., Dickson, N., Enderud, C., Hilton, J. P., Hoskinson, E., Johnson, M. W., Ladizinsky, E., Ladizinsky, N., Neufeld, R., Oh, T., Perminov, I., Rich, C., Thom, M. C., Tolkacheva, E., Uchaikin, S., Wilson, A. B., Rose, G.
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Annealing
Coherence
Dilution
Line spectra
Microprocessors
Quantum computers
Quantum computing
Quantum entanglement
Quantum phenomena
Qubits (quantum computing)
Spectrum analysis
Thermal environments
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Zusammenfassung:Entanglement lies at the core of quantum algorithms designed to solve problems that are intractable by classical approaches. One such algorithm, quantum annealing (QA), provides a promising path to a practical quantum processor. We have built a series of architecturally scalable QA processors consisting of networks of manufactured interacting spins (qubits). Here, we use qubit tunneling spectroscopy to measure the energy eigenspectrum of two- and eight-qubit systems within one such processor, demonstrating quantum coherence in these systems. We present experimental evidence that, during a critical portion of QA, the qubits become entangled and entanglement persists even as these systems reach equilibrium with a thermal environment. Our results provide an encouraging sign that QA is a viable technology for large-scale quantum computing.
ISSN:2160-3308
2160-3308
DOI:10.1103/PhysRevX.4.021041