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Isotope purification induced reduction of spin relaxation and spin coherence times in semiconductors

Paramagnetic defects and nuclear spins are often the major sources of decoherence and spin relaxation in solid-state qubits realized by optically addressable point defect spins in semiconductors. It is commonly accepted that a high degree of depletion of nuclear spins can enhance the coherence time by reducing magnetic noise. Here we show that the isotope purification beyond a certain optimal level becomes contra-productive, when both electron and nuclear spins are present in the vicinity of the qubits. Using state-of-the-art numerical tools and considering the silicon vacancy qubit in various spin environments, we demonstrate that the coupling to spin-1/2 point defects in the lattice can be significantly enhanced by isotope purification. The enhanced coupling shortens the spin relaxation time that in turn may limit the the coherence time of spin qubits. Our results can be straightforwardly generalized to triplet point defect qubits, such as the NV center in diamond and the divacancy in SiC.

preprint2022arXivOpen access
Oscar Bulancea-LindvallMatthew Travis EilesNguyen Tien SonIgor A. AbrikosovViktor Ivády
cond-mat.mes-hallcond-mat.other
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Oscar Bulancea-LindvallMatthew Travis EilesNguyen Tien SonIgor A. AbrikosovViktor Ivády

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