Isotopic identification of engineered nitrogen-vacancy spin qubits in ultrapure diamond

T. Yamamoto , S. Onoda , T. Ohshima , T. Teraji , K. Watanabe , S. Koizumi , T. Umeda , L. P. McGuinness

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C. M\"uller B. Naydenov F. Dolde H. Fedder J. Honert M. L. Markham D. J. Twitchen J. Wrachtrup F. Jelezko J. Isoya

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classification ❄️ cond-mat.mes-hall cond-mat.mtrl-sci

keywords diamondconcentrationimpuritiesmagneticnitrogenqubitsultrapureused

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Nitrogen impurities help to stabilize the negatively-charged-state of NV$^-$ in diamond, whereas magnetic fluctuations from nitrogen spins lead to decoherence of NV$^-$ qubits. It is not known what donor concentration optimizes these conflicting requirements. Here we used 10-MeV $^{15}$N$^{3+}$ ion implantation to create NV$^-$ in ultrapure diamond. Optically detected magnetic resonance of single centers revealed a high creation yield of $40\pm3$% from $^{15}$N$^{3+}$ ions and an additional yield of $56\pm3$% from $^{14}$N impurities. High-temperature anneal was used to reduce residual defects, and charge stable NV$^-$, even in a dilute $^{14}$N impurity concentration of 0.06 ppb were created with long coherence times.

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Isotopic identification of engineered nitrogen-vacancy spin qubits in ultrapure diamond

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