2020
DOI: 10.48550/arxiv.2006.08794
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Characterization of the T center in $^{28}$Si

L. Bergeron,
C. Chartrand,
A. T. K. Kurkjian
et al.
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Cited by 4 publications
(6 citation statements)
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“…For intrinsic systems, every defect can deterministically have one or more corresponding nuclear spin registers with the proper choice of isotope during defect formation [138][139][140] . The hyperfine interaction for intrinsic nuclear spins can be large from the contact term (up to GHz 141 ).…”
Section: Nuclear Spin Registersmentioning
confidence: 99%
“…For intrinsic systems, every defect can deterministically have one or more corresponding nuclear spin registers with the proper choice of isotope during defect formation [138][139][140] . The hyperfine interaction for intrinsic nuclear spins can be large from the contact term (up to GHz 141 ).…”
Section: Nuclear Spin Registersmentioning
confidence: 99%
“…[68][69][70][71] The fast recombination time of G-centers with respect to similar emitters in Si (e.g. the T-center [32][33][34] ) would provide a more efficient read-out of the spin degree of freedom providing a spin-photon interface.…”
Section: Discussionmentioning
confidence: 99%
“…It is less well studied than other defect centers in silicon [15], but is attracting more interest recently due to its ZPL transition of 935 nm, which lies directly in the telecommunications O-band. Furthermore, this defect center is believed to host transitions between two spin-1/2 states whose fine structure can be controlled by an external magnetic field, presenting the possibility of using the T-center for photon-spin coupling for QIS applications [25].…”
Section: Electronic Structure Of the Defect Centersmentioning
confidence: 99%