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Spin relaxation and donor-acceptor recombination of Se$^+$ in 28-silicon

Selenium impurities in silicon are deep double donors and their optical and electronic properties have been recently investigated due to their application for infrared detection. However, a singly-ionised selenium donor (Se$^{+}$) possesses an electron spin which makes it a potential candidate as a silicon-based spin qubit, with significant potential advantages compared to the more commonly studied group V donors. Here we study the electron spin relaxation ($T_1$) and coherence ($T_2$) times of Se$^{+}$ in isotopically purified 28-silicon, and find them to be up to two orders of magnitude longer than shallow group V donors at temperatures above $\sim 15$ K. We further study the dynamics of donor-acceptor recombination between selenium and boron, demonstrating that it is possible to control the donor charge state through optical excitation of neutral Se$^0$.

preprint2015arXivOpen access
Roberto Lo NardoGary WolfowiczStephanie SimmonsAlexei M. TyryshkinHelge RiemannNikolai V. AbrosimovPeter BeckerHans-Joachim PohlMichael StegerStephen A. LyonMike L. W. ThewaltJohn J. L. Morton
cond-mat.mes-hallquant-ph
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Open access12 authors2 topics
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Roberto Lo NardoGary WolfowiczStephanie SimmonsAlexei M. TyryshkinHelge RiemannNikolai V. AbrosimovPeter BeckerHans-Joachim PohlMichael StegerStephen A. LyonMike L. W. ThewaltJohn J. L. Morton

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