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

Christopher P. Anderson; Elena O. Glen; Cyrus Zeledon; Alexandre Bourassa; Yu Jin; Yizhi Zhu; Christian Vorwerk; Alexander L. Crook; Hiroshi Abe; Jawad Ul-Hassan; Takeshi Ohshima; Nguyen T. Son; Giulia Galli; David D. Awschalom

doi:10.1126/sciadv.abm5912

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

Christopher P. Anderson, Elena O. Glen, Cyrus Zeledon, Alexandre Bourassa, Yu Jin, Yizhi Zhu, Christian Vorwerk, Alexander L. Crook, Hiroshi Abe, Jawad Ul-Hassan, Takeshi Ohshima, Nguyen T. Son, Giulia Galli, David D. Awschalom

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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-spin T₂ > 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.

Original language	English (US)
Article number	eabm5912
Journal	Science Advances
Volume	8
Issue number	5
DOIs	https://doi.org/10.1126/sciadv.abm5912
State	Published - Feb 2022
Externally published	Yes

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title = "Five-second coherence of a single spin with single-shot readout in silicon carbide",

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-spin T2 > 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.",

author = "Anderson, \{Christopher P.\} and Glen, \{Elena O.\} and Cyrus Zeledon and Alexandre Bourassa and Yu Jin and Yizhi Zhu and Christian Vorwerk and Crook, \{Alexander L.\} and Hiroshi Abe and Jawad Ul-Hassan and Takeshi Ohshima and Son, \{Nguyen T.\} and Giulia Galli and Awschalom, \{David D.\}",

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AU - Anderson, Christopher P.

AU - Glen, Elena O.

AU - Zeledon, Cyrus

AU - Bourassa, Alexandre

AU - Jin, Yu

AU - Zhu, Yizhi

AU - Vorwerk, Christian

AU - Crook, Alexander L.

AU - Abe, Hiroshi

AU - Ul-Hassan, Jawad

AU - Ohshima, Takeshi

AU - Son, Nguyen T.

AU - Galli, Giulia

AU - Awschalom, David D.

N1 - Publisher Copyright: © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).

PY - 2022/2

Y1 - 2022/2

N2 - 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-spin T2 > 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.

AB - 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-spin T2 > 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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Five-second coherence of a single spin with single-shot readout in silicon carbide

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