Coherence of a charge stabilised tin-vacancy spin in diamond

Coherence of a charge stabilised tin-vacancy spin in diamond

Quantum information processing (QIP) with solid state spin qubits strongly depends on the efficient initialisation of the qubit’s desired charge state. While the negatively charged tin-vacancy (SnV−) centre in diamond has emerged as an excellent platform for realising QIP protocols due to long spin...

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Bibliographic Details
Main Authors: Becher, C. (Author), Colard, P.-O (Author), Fuchs, P. (Author), Görlitz, J. (Author), Hardeman, D. (Author), Hatano, M. (Author), Herrmann, D. (Author), Iwasaki, T. (Author), Markham, M. (Author), Rogalla, D. (Author), Taniguchi, T. (Author)
Format: Article
Language:English
Published: Nature Research 2022
Subjects:
Charge state
Ground state
Group-IV
Liquid helium temperature
Negative charge
Negatively charged
Quantum information processing
Quantum optics
Qubits
Resonant excitation
Spin coherence time
Spin qubit
Superfluid helium
Tin
Tin vacancies
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