Physical Review Research (Aug 2022)

Nuclear spin quantum memory in silicon carbide

  • Benedikt Tissot,
  • Michael Trupke,
  • Philipp Koller,
  • Thomas Astner,
  • Guido Burkard

DOI
https://doi.org/10.1103/PhysRevResearch.4.033107
Journal volume & issue
Vol. 4, no. 3
p. 033107

Abstract

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Transition metal (TM) defects in silicon carbide (SiC) are a promising platform for applications in quantum technology. Some TM defects, e.g., vanadium, emit in one of the telecom bands, but the large ground-state hyperfine manifold poses a problem for applications which require pure quantum states. We develop a driven, dissipative protocol to polarize the nuclear spin, based on a rigorous theoretical model of the defect. We further show that nuclear-spin polarization enables the use of well-known methods for initialization and long time coherent storage of quantum states. The proposed nuclear-spin preparation protocol thus marks the first step towards an all-optically controlled integrated platform for quantum technology with TM defects in SiC.