Reducing inhomogeneous broadening of spin and optical transitions of nitrogen-vacancy centers in high-pressure, high-temperature diamond

Rémi Blinder; Yuliya Mindarava; Thai Hien Tran; Ali Momenzadeh; Sen Yang; Petr Siyushev; Hitoshi Sumiya; Kenji Tamasaku; Taito Osaka; Norio Morishita; Haruki Takizawa; Shinobu Onoda; Hideyuki Hara; Fedor Jelezko; Jörg Wrachtrup; Junichi Isoya

doi:10.1038/s43246-024-00660-8

Communications Materials (Oct 2024)

Reducing inhomogeneous broadening of spin and optical transitions of nitrogen-vacancy centers in high-pressure, high-temperature diamond

Rémi Blinder,
Yuliya Mindarava,
Thai Hien Tran,
Ali Momenzadeh,
Sen Yang,
Petr Siyushev,
Hitoshi Sumiya,
Kenji Tamasaku,
Taito Osaka,
Norio Morishita,
Haruki Takizawa,
Shinobu Onoda,
Hideyuki Hara,
Fedor Jelezko,
Jörg Wrachtrup,
Junichi Isoya

Affiliations

Rémi Blinder: Institute for Quantum Optics, Ulm University
Yuliya Mindarava: Institute for Quantum Optics, Ulm University
Thai Hien Tran: 3rd Institute of Physics, University of Stuttgart
Ali Momenzadeh: 3rd Institute of Physics, University of Stuttgart
Sen Yang: 3rd Institute of Physics, University of Stuttgart
Petr Siyushev: 3rd Institute of Physics, University of Stuttgart
Hitoshi Sumiya: Sumitomo Electric Industries Ltd.
Kenji Tamasaku: RIKEN SPring-8 Center
Taito Osaka: RIKEN SPring-8 Center
Norio Morishita: Quantum Materials and Applications Research Center, National Institutes for Quantum Science and Technology
Haruki Takizawa: Quantum Materials and Applications Research Center, National Institutes for Quantum Science and Technology
Shinobu Onoda: Quantum Materials and Applications Research Center, National Institutes for Quantum Science and Technology
Hideyuki Hara: Bruker Japan K.K.
Fedor Jelezko: Institute for Quantum Optics, Ulm University
Jörg Wrachtrup: 3rd Institute of Physics, University of Stuttgart
Junichi Isoya: Faculty of Pure and Applied Sciences, University of Tsukuba

DOI: https://doi.org/10.1038/s43246-024-00660-8
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 10

Abstract

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Abstract With their optical addressability of individual spins and long coherence time, nitrogen-vacancy (NV) centers in diamond are often called “atom-like solid spin-defects”. As observed with trapped atomic ions, quantum interference mediated by indistinguishable photons was demonstrated between remote NV centers. In high sensitivity DC magnetometry at room temperature, NV ensembles are potentially rivaling with alkali-atom vapor cells. However, local strain induces center-to-center variation of both optical and spin transitions of NV centers. Therefore, advanced engineering of diamond growth toward crystalline perfection is demanded. Here, we report on the synthesis of high-quality HPHT (high-pressure, high-temperature) crystals, demonstrating a small inhomogeneous broadening of the spin transitions, of T 2 * = 1.28 μs, approaching the limit for crystals with natural 13C abundance, that we determine as T 2 * = 1.48 μs. The contribution from strain and local charges to the inhomogeneous broadening is lowered to ~17 kHz full width at half maximum for NV ensemble within a > 10 mm3 volume. Looking at optical transitions in low nitrogen crystals, we examine the variation of zero-phonon-line optical transition frequencies at low temperatures, showing a strain contribution below 2 GHz for a large fraction of single NV centers.

Published in Communications Materials

ISSN: 2662-4443 (Online)
Publisher: Nature Portfolio
Country of publisher: United States
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.nature.com/commsmat/

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