Electro-optic frequency shift of single photons from a quantum dot

Electro-optic frequency shift of single photons from a quantum dot

Quantum dots (QDs) are a promising source of single photons mainly due to their on-demand operation. However, their emission wavelength depends on their size and immediate surroundings in the solid-state environment. By applying a serrodyne electro-optic phase modulation, we achieve a spectral shift...

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Bibliographic Details
Main Authors: Kapoor Sanjay, Rodek Aleksander, Mikołajczyk Michał, Szuniewicz Jerzy, Sośnicki Filip, Kazimierczuk Tomasz, Kossacki Piotr, Karpiński Michał
Format: Article
Language:English
Published: De Gruyter 2025-01-01
Series:Nanophotonics
Subjects:
quantum dots
single-photon source
electro-optic phase modulation
quantum photonics
quantum interface
spectral shift
Online Access:https://doi.org/10.1515/nanoph-2024-0550
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Summary:Quantum dots (QDs) are a promising source of single photons mainly due to their on-demand operation. However, their emission wavelength depends on their size and immediate surroundings in the solid-state environment. By applying a serrodyne electro-optic phase modulation, we achieve a spectral shift up to 0.01 nm (3.5 GHz) while preserving the purity and indistinguishability of the photons. This method provides an efficient and scalable approach for tuning the emission wavelength of QDs without relying on nonlinear frequency mixing or probabilistic processes. Our results show that the electro-optic phase modulation enables stable and tunable spectral shifts, making it suitable for applications such as quantum communication, quantum key distribution, and primarily integrating remote quantum dot sources into large-scale quantum networks.
ISSN:2192-8614

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