Abstract
A nitrogen vacancy (NV) center in diamond is known as a solid-state spin qubit at room temperature. NV centers coherently coupled by dipole-dipole interactions have a potential to accomplish quantum registers at room temperature. This study reports to develop a phthalocyanine ion implantation technique to fabricate multiple dipole-coupled NV centers. Photon counts and optically detected magnetic resonance spectra show that up to four NV centers were successfully created in a confocal spot. The histogram of photon counts is fitted by a Poisson distribution, and the ratio of multiple NV spots suggests the potential for a five NV centers creation.
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Kimura, K., Onoda, S., Yamada, K., Kada, W., Teraji, T., Isoya, J., … Ohshima, T. (2022). Creation of multiple NV centers by phthalocyanine ion implantation. Applied Physics Express, 15(6). https://doi.org/10.35848/1882-0786/ac7030
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