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Q: Fachverband Quantenoptik und Photonik

Q 49: Poster – Photonics, Lasers, and Applications

Q 49.5: Poster

Mittwoch, 12. März 2025, 17:00–19:00, Tent

Towards photonic interference with VV centres on industrial-compatible SIC-OI chips — •NienHsuan Lee^1,2, Sushree Swateeprajnya Behera^1,2, Jonas Schmid^1,2, Leonard Zimmermann^1,2, Jonah Heiler^1,2, Flavie D. Marquis^1,2, Stephan Kucera¹, and Florian Kaiser^1,2 — ¹MRT Department, Luxembourg Institute of Science and Technology, Belval, Luxembourg — ²Department of Physics and Materials Science, University of Luxembourg, Belval, Luxembourg

Colour centres in solid-state materials are promising for quantum communication, offering robust optical and spin properties. However, scaling up the experiment from single colour centres to plethora of colour centres on chips remains a significant challenge. Here, we present an approach to fabricating photonic quantum chips with divacancy (VV) centres in silicon carbide (SiC). By utilizing SiC-on-insulator (SiC-OI) substrates, we could establish a robust and industry-compatible design for scalable quantum technologies. Our method integrates VV centres into photonic structures, enabling efficient spin-photon interactions and chip-scale integration. With these chips, our ambition is to perform photonic interference experiments to entangle neighbouring VV centres on a chip.

Keywords: Colour Centres; Silicon Carbide; Nanofabrication