Controlled lateral positioning of NV centres in diamond by CVD overgrowth

Nicola Lang; Niklas Mathes; Arne Götze; Philipp Reinke; Christoph Schreyvogel; Robert Iannucci; Christian Giese; Xavier Vidal; Peter Knittel

doi:10.1088/1402-4896/ad6f60

Controlled lateral positioning of NV centres in diamond by CVD overgrowth

Nicola Lang^*
, Niklas Mathes
, Arne Götze
, Philipp Reinke
, Christoph Schreyvogel
, Robert Iannucci
, Christian Giese
, Xavier Vidal
, Peter Knittel

^*Autor correspondiente de este trabajo

Quantum

Fraunhofer Institute for Applied Solid State Physics

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

7 Citas (Scopus)

26 Descargas (Pure)

Resumen

A challenge to this day in the development of diamond devices for quantum applications is the laterally defined and closely spaced positioning of nitrogen-vacancy centres with exceptional coherence properties. Here, we demonstrate a maskless, implantation-free method for the controlled in-plane positioning of NV centres using a combination of focused ion beam (FIB) milling, plasma etching and nitrogen-doped diamond growth. The Ga⁺ ion beam milling resulted in 1 μm × 1 μm cavities with depths of up to 450 nm, each cavity exhibiting the four [111]-oriented diamond facets after pure hydrogen plasma treatment and a depth of 700 nm. Low-methane, nitrogen-doped chemical vapour deposition (CVD) overgrowth resulted in in situ formation of oriented NV ensembles, exclusively perpendicular to the {111}-planes.

Idioma original	Inglés
Número de artículo	105408
Publicación	Physica Scripta
Volumen	99
N.º	10
DOI	https://doi.org/10.1088/1402-4896/ad6f60
Estado	Publicada - 1 oct 2024

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abstract = "A challenge to this day in the development of diamond devices for quantum applications is the laterally defined and closely spaced positioning of nitrogen-vacancy centres with exceptional coherence properties. Here, we demonstrate a maskless, implantation-free method for the controlled in-plane positioning of NV centres using a combination of focused ion beam (FIB) milling, plasma etching and nitrogen-doped diamond growth. The Ga+ ion beam milling resulted in 1 μm × 1 μm cavities with depths of up to 450 nm, each cavity exhibiting the four [111]-oriented diamond facets after pure hydrogen plasma treatment and a depth of 700 nm. Low-methane, nitrogen-doped chemical vapour deposition (CVD) overgrowth resulted in in situ formation of oriented NV ensembles, exclusively perpendicular to the \{111\}-planes.",

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AU - Mathes, Niklas

AU - Götze, Arne

AU - Reinke, Philipp

AU - Schreyvogel, Christoph

AU - Iannucci, Robert

AU - Giese, Christian

AU - Vidal, Xavier

AU - Knittel, Peter

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AB - A challenge to this day in the development of diamond devices for quantum applications is the laterally defined and closely spaced positioning of nitrogen-vacancy centres with exceptional coherence properties. Here, we demonstrate a maskless, implantation-free method for the controlled in-plane positioning of NV centres using a combination of focused ion beam (FIB) milling, plasma etching and nitrogen-doped diamond growth. The Ga+ ion beam milling resulted in 1 μm × 1 μm cavities with depths of up to 450 nm, each cavity exhibiting the four [111]-oriented diamond facets after pure hydrogen plasma treatment and a depth of 700 nm. Low-methane, nitrogen-doped chemical vapour deposition (CVD) overgrowth resulted in in situ formation of oriented NV ensembles, exclusively perpendicular to the {111}-planes.

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Controlled lateral positioning of NV centres in diamond by CVD overgrowth

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