Open AccessFive-second coherence of a single spin with single-shot readout in silicon carbide
Author(s) -
Christopher P. Anderson,
Elena O. Glen,
Cyrus Zeledon,
Alexandre Bourassa,
Yu Jin,
Yizhi Zhu,
Christian Vorwerk,
Alexander L. Crook,
Hiroshi Abe,
Jawad UlHassan,
Takeshi Ohshima,
Nguyên Tiên Són,
Giulia Galli,
D. D. Awschalom
Publication year - 2022
Publication title -
science advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.928
H-Index - 146
ISSN - 2375-2548
DOI - 10.1126/sciadv.abm5912
Subject(s) - single shot , coherence (philosophical gambling strategy) , qubit , dynamical decoupling , spin (aerodynamics) , physics , silicon carbide , shot noise , optoelectronics , quantum , materials science , quantum mechanics , optics , detector , metallurgy , thermodynamics
An outstanding hurdle for defect spin qubits in silicon carbide (SiC) is single-shot readout, a deterministic measurement of the quantum state. Here, we demonstrate single-shot readout of single defects in SiC via spin-to-charge conversion, whereby the defect’s spin state is mapped onto a long-lived charge state. With this technique, we achieve over 80% readout fidelity without pre- or postselection, resulting in a high signal-to-noise ratio that enables us to measure long spin coherence times. Combined with pulsed dynamical decoupling sequences in an isotopically purified host material, we report single-spinT 2 > 5 seconds, over two orders of magnitude greater than previously reported in this system. The mapping of these coherent spin states onto single charges unlocks both single-shot readout for scalable quantum nodes and opportunities for electrical readout via integration with semiconductor devices.
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