Neutral Silicon-Vacancy Center in Diamond: Spin Polarization and Lifetimes

B. L. Green; S. Mottishaw; B. G. Breeze; A. M. Edmonds; U. F.S. D'Haenens-Johansson; M. W. Doherty; S. D. Williams; D. J. Twitchen; M. E. Newton

doi:10.1103/PhysRevLett.119.096402

Neutral Silicon-Vacancy Center in Diamond: Spin Polarization and Lifetimes

B. L. Green^*, S. Mottishaw, B. G. Breeze, A. M. Edmonds, U. F.S. D'Haenens-Johansson, M. W. Doherty, S. D. Williams, D. J. Twitchen, M. E. Newton

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

63 Citations (Scopus)

Abstract

We demonstrate optical spin polarization of the neutrally charged silicon-vacancy defect in diamond (SiV0), an S=1 defect which emits with a zero-phonon line at 946 nm. The spin polarization is found to be most efficient under resonant excitation, but nonzero at below-resonant energies. We measure an ensemble spin coherence time T2>100 μs at low-temperature, and a spin relaxation limit of T1>25 s. Optical spin-state initialization around 946 nm allows independent initialization of SiV0 and NV- within the same optically addressed volume, and SiV0 emits within the telecoms down-conversion band to 1550 nm: when combined with its high Debye-Waller factor, our initial results suggest that SiV0 is a promising candidate for a long-range quantum communication technology.

Original language	English
Article number	096402
Journal	Physical Review Letters
Volume	119
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevLett.119.096402
Publication status	Published - 31 Aug 2017

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title = "Neutral Silicon-Vacancy Center in Diamond: Spin Polarization and Lifetimes",

abstract = "We demonstrate optical spin polarization of the neutrally charged silicon-vacancy defect in diamond (SiV0), an S=1 defect which emits with a zero-phonon line at 946 nm. The spin polarization is found to be most efficient under resonant excitation, but nonzero at below-resonant energies. We measure an ensemble spin coherence time T2>100 μs at low-temperature, and a spin relaxation limit of T1>25 s. Optical spin-state initialization around 946 nm allows independent initialization of SiV0 and NV- within the same optically addressed volume, and SiV0 emits within the telecoms down-conversion band to 1550 nm: when combined with its high Debye-Waller factor, our initial results suggest that SiV0 is a promising candidate for a long-range quantum communication technology.",

author = "Green, {B. L.} and S. Mottishaw and Breeze, {B. G.} and Edmonds, {A. M.} and D'Haenens-Johansson, {U. F.S.} and Doherty, {M. W.} and Williams, {S. D.} and Twitchen, {D. J.} and Newton, {M. E.}",

note = "Publisher Copyright: {\textcopyright} 2017 American Physical Society.",

year = "2017",

month = aug,

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doi = "10.1103/PhysRevLett.119.096402",

language = "English",

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T1 - Neutral Silicon-Vacancy Center in Diamond

T2 - Spin Polarization and Lifetimes

AU - Green, B. L.

AU - Mottishaw, S.

AU - Breeze, B. G.

AU - Edmonds, A. M.

AU - D'Haenens-Johansson, U. F.S.

AU - Doherty, M. W.

AU - Williams, S. D.

AU - Twitchen, D. J.

AU - Newton, M. E.

PY - 2017/8/31

Y1 - 2017/8/31

N2 - We demonstrate optical spin polarization of the neutrally charged silicon-vacancy defect in diamond (SiV0), an S=1 defect which emits with a zero-phonon line at 946 nm. The spin polarization is found to be most efficient under resonant excitation, but nonzero at below-resonant energies. We measure an ensemble spin coherence time T2>100 μs at low-temperature, and a spin relaxation limit of T1>25 s. Optical spin-state initialization around 946 nm allows independent initialization of SiV0 and NV- within the same optically addressed volume, and SiV0 emits within the telecoms down-conversion band to 1550 nm: when combined with its high Debye-Waller factor, our initial results suggest that SiV0 is a promising candidate for a long-range quantum communication technology.

AB - We demonstrate optical spin polarization of the neutrally charged silicon-vacancy defect in diamond (SiV0), an S=1 defect which emits with a zero-phonon line at 946 nm. The spin polarization is found to be most efficient under resonant excitation, but nonzero at below-resonant energies. We measure an ensemble spin coherence time T2>100 μs at low-temperature, and a spin relaxation limit of T1>25 s. Optical spin-state initialization around 946 nm allows independent initialization of SiV0 and NV- within the same optically addressed volume, and SiV0 emits within the telecoms down-conversion band to 1550 nm: when combined with its high Debye-Waller factor, our initial results suggest that SiV0 is a promising candidate for a long-range quantum communication technology.

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DO - 10.1103/PhysRevLett.119.096402

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JO - Physical Review Letters

JF - Physical Review Letters

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ER -

Neutral Silicon-Vacancy Center in Diamond: Spin Polarization and Lifetimes

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