Resonant metasurface-enabled quantum light sources for single-photon emission and entangled photon-pair generation
Feng Pan, Priyanuj Bordoloi, Chih-Yi Chen, Jennifer A. Dionne

TL;DR
This paper explores how resonant metasurfaces can improve quantum light sources for better integration and performance in quantum networks.
Contribution
The paper introduces resonant metasurface-based quantum light sources with enhanced tunability and integrability for scalable quantum networks.
Findings
Resonant metasurfaces enable efficient single-photon emission and entangled photon-pair generation.
Metasurfaces offer high-quality confinement of electromagnetic fields for improved quantum light manipulation.
Integration of van der Waals materials with metasurfaces could lead to next-generation quantum light sources.
Abstract
Light encodes information in multiple degrees of freedom (e.g., frequency, amplitude, and phase), enabling high-speed, high-bandwidth communication through fiber optics. Unlike classical light, quantum light (single or entangled photons) can transmit quantum states over long distances without loss of coherence, thereby coherently interconnecting quantum nodes for distributed quantum entanglement. Quantum light sources are critical for developing scalable quantum networks aimed at distributed quantum computing, quantum teleportation, and secure quantum communications. However, existing quantum light sources suffer from limited integrability, insufficient spectral and spatial tunability, and inefficiencies in achieving mass-produced, deterministic, on-demand quantum light generation. These limitations significantly hinder progress toward direct, on-chip integration with quantum processing…
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Taxonomy
TopicsQuantum Information and Cryptography · Plasmonic and Surface Plasmon Research · Photonic and Optical Devices
