AIP Advances (Jul 2022)

Local strain-dependent Zeeman splitting in GaN:Eu

  • Tomohiro Okuno,
  • Ryota Onoda,
  • Lisa Toyoshima,
  • Kasumi Miyata,
  • Hiroto Sekiguchi,
  • Akihiro Wakahara,
  • Toshihiro Nakaoka

DOI
https://doi.org/10.1063/5.0097267
Journal volume & issue
Vol. 12, no. 7
pp. 075315 – 075315-6

Abstract

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The electronic spins of rare-earth materials are attractive candidates for spin qubits and quantum memories. To access individual spins, tuning of the g-factor is desirable. Here, we report on local strain-dependent g-factors of the 5D0–7F2 transitions of Eu3+ centers in GaN:Eu thin films. We have found a clear correlation between the effective g-factor and the emission energy shift induced by the local strain. The combination of micro-photoluminescence and scanning electron microscope/electron backscattering diffraction measurements has revealed that the compressive strain of 0.2%–0.4%, relative to a surrounding reference point, induces an energy shift of about 3 meV. The strain decreases the g-factor of the emission at 1.991 eV from 2.5 to 1.5, while the strain increases the g-factor of the emission at 1.994 eV from 1.1 to 1.7. The result suggests that the g-factor can be tuned by the local strain. On the basis of the strain-induced energy shift and the g-factor, we have identified the optical sites. The 5D0–7F2 transitions observed in this study consist of three optical sites with C3v symmetry and one site with C1h symmetry.