Tunable WS$_2$ Micro-Dome Open Cavity Single Photon Source
Preprint 2025
Authors
JD
Jens-Christian Drawer
SC
Salvatore Cianci
VS
Vita Solovyeva
Abstract
1 min read
Versatile, tunable, and potentially scalable single-photon sources are a key asset in emergent photonic quantum technologies. In this work, a single-photon source based on WS$_2$ micro-domes, created via hydrogen ion irradiation, is realized and integrated into an open, tunable optical microcavity. Single-photon emission from the coupled emitter-cavity system is verified via the second-order correlation measurement, revealing a $g^{(2)}(τ=0)$ value of 0.3. A detailed analysis of the spectrally selective, cavity enhanced emission features shows the impact of a pronounced acoustic phonon emission sideband, which contributes specifically to the non-resonant emitter-cavity coupling in this system. The achieved level of cavity-emitter control highlights the potential of open-cavity systems to tailor the emission properties of atomically thin quantum emitters, advancing their suitability for real-world quantum technology applications.
Jens-Christian Drawer, Victor N. Mitryakhin, Hangyong Shan, Sven Stephan, Moritz Gittinger, Lukas Lackner, Bo Han, Gilbert Leibeling, Falk Eilenberger, Rounak Banerjee, Sefaattin Tongay, Kenji Watanabe, Takashi Taniguchi, Christoph Lienau, Martin Silies, C. Antón, Martin Esmann, Christian Schneider
Salvatore Cianci, Elena Blundo, Federico Tuzi, Giorgio Pettinari, Katarzyna Olkowska‐Pucko, Eirini Parmenopoulou, Djero Peeters, A. Miriametro, Takashi Taniguchi, Kenji Watanabe, A. Babiński, Maciej R. Molas, Marco Felici, A. Polimeni
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