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Atomic structure analysis of PL5 in silicon carbide with single-spin spectroscopy

Published 10 Apr 2025 in cond-mat.mtrl-sci, cond-mat.mes-hall, physics.comp-ph, and quant-ph | (2504.07558v1)

Abstract: Divacancy (VV) spin defects in 4H polytype of silicon carbide (4H-SiC) are emerging candidates for quantum information processing and quantum sensing. Among these defects, PL5 and PL6 stand out due to their superior charge stability and optically detected magnetic resonance (ODMR) properties at room temperature. However, their atomic structures remain unresolved, with ongoing controversy regarding their potential association with stacking faults. Previous measurements relying on spin ensemble detection are insufficient to draw definitive conclusions. In this study, we conduct correlative imaging of stacking faults and PL5-6 at single-defect level, conclusively demonstrating that PL5-6 are not associated with stacking faults. Further investigation of PL5 through single-spin ODMR spectroscopy allows us to determine its six spatial orientations, as well as to measure the orientation of its transverse anisotropy spin splitting (E) and the statistical distribution of hyperfine splitting. These results and ab initio calculations suggest that PL5 should be VsiVc(hk) divacancy coupled with a nearby antisite atom (VVA). The structure resolution of PL5 starts the first step toward its controllable fabrication, paving the way for various applications.

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