Five-second coherence of a single spin with single-shot readout in silicon carbide-Reference-Cited by-同舟云学术

Five-second coherence of a single spin with single-shot readout in silicon carbide

Published:2022-02-04 Issue:5 Volume:8 Page:
ISSN:2375-2548
Container-title:Science Advances
language:en
Short-container-title:Sci. Adv.

Author:

Anderson Christopher P.¹²^ORCID,Glen Elena O.¹^ORCID,Zeledon Cyrus¹^ORCID,Bourassa Alexandre¹^ORCID,Jin Yu³,Zhu Yizhi¹,Vorwerk Christian¹^ORCID,Crook Alexander L.¹²^ORCID,Abe Hiroshi⁴^ORCID,Ul-Hassan Jawad⁵^ORCID,Ohshima Takeshi⁴^ORCID,Son Nguyen T.⁵^ORCID,Galli Giulia¹³⁶,Awschalom David D.¹²⁶^ORCID

Affiliation:

1. Pritzker School of Molecular Engineering, University of Chicago, Chicago, IL 60637, USA.

2. Department of Physics, University of Chicago, Chicago, IL 60637, USA.

3. Department of Chemistry, University of Chicago, Chicago, IL 60637, USA.

4. National Institutes for Quantum Science and Technology, 1233 Watanuki, Takasaki, Gunma 370-1292, Japan.

5. Department of Physics, Chemistry and Biology, Linköping University, SE-581 83 Linköping, Sweden.

6. Center for Molecular Engineering and Materials Science Division, Argonne National Laboratory, Lemont, IL 60439, USA.

Abstract

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-spinT2> 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.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

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