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Resolving Jahn-Teller induced vibronic fine structure of silicon vacancy quantum emission in silicon carbide

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Author / Producer

Etzelmüller Bathen, Marianne Galeckas, Augustinas Karsthof, Robert

Date

2021-07-15

Publication Type

Journal Article

ETH Bibliography

yes

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OPEN ACCESS

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Full text (accepted version) (PDF, 7.40 MB)

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In Copyright - Non-Commercial Use Permitted north_east

Abstract

Point defects in semiconductors are promising single-photon emitters (SPEs) for quantum computing, communication, and sensing applications. However, factors such as emission brightness, purity. and indistinguishability are limited by interactions between localized defect states and the surrounding environment. Therefore, it is important to map the full emission spectrum from each SPE, to understand the complex interplay between the different defect configurations, their surroundings, and external perturbations. Herein, we investigate a family of regularly spaced sharp luminescence peaks appearing in the near-infrared portion of photoluminescence (PL) spectra from n-type 4H-SiC samples after irradiation. This periodic emitter family, labeled the L lines, is only observed when the zero-phonon line signatures of the negatively charged Si vacancy (so-called V lines) are present. The L lines appear with 1.45 meV and 1.59 meV energy spacing after H and He irradiation and increase linearly in intensity with fluence-reminiscent of the intrinsic defect trend. Furthermore, we monitor the dependence of the L-line emission energy and intensity on heat treatments, electric field strength, and PL collection temperature, discussing these data in the context of the L lines. Based on the strong similarity between the irradiation, electric field, and thermal responses of the L and V lines, the L lines are attributed to the Si vacancy in 4H-SiC. The regular and periodic appearance of the L lines provides strong arguments for a vibronic origin explaining the oscillatory multipeak spectrum. To account for the small energy separation of the L lines, we propose a model based on rotations of distortion surrounding the Si vacancy driven by a dynamic Jahn-Teller effect.

Permanent link

https://doi.org/10.3929/ethz-b-000497411

Publication status

published

External links

https://doi.org/10.1103/PhysRevB.104.045120 north_east

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Book title

Journal / series

Volume

104 (4)

Pages / Article No.

45120

Publisher

American Physical Society

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Edition / version

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Organisational unit

09480 - Grossner, Ulrike / Grossner, Ulrike check_circle

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