A source of entangled photons based on a cavity-enhanced and strain-tuned GaAs quantum dot

Michele Rota; Tobias Krieger; Quirin Buchinger; M. Beccaceci; Julia Neuwirth; H. Huet; N. Horová; Gabriele Lovicu; G. Ronco; Saimon Covre Da Silva; G. Pettinari; Magdalena Moczala-Dusanowska; Christoph Kohlberger; Santanu Manna; Sandra Stroj; Julia Freund; Xueyong Yuan; Christian Schneider; Miroslav Jezek; Sven Höfling; Francesco Basso Basset; Tobias Huber-Loyola; Armando Rastelli; Rinaldo Trotta

doi:10.1186/s43593-024-00072-8

A source of entangled photons based on a cavity-enhanced and strain-tuned GaAs quantum dot

Michele Rota, Tobias Krieger, Quirin Buchinger, M. Beccaceci, Julia Neuwirth, H. Huet, N. Horová, Gabriele Lovicu, G. Ronco, Saimon Covre Da Silva, G. Pettinari, Magdalena Moczala-Dusanowska, Christoph Kohlberger, Santanu Manna, Sandra Stroj, Julia Freund, Xueyong Yuan, Christian Schneider, Miroslav Jezek, Sven HöflingFrancesco Basso Basset, Tobias Huber-Loyola, Armando Rastelli, Rinaldo Trotta

Research output: Contribution to journal › Article › peer-review

Abstract

A quantum-light source that delivers photons with a high brightness and a high degree of entanglement is fundamental for the development of efcient entanglement-based quantum-key distribution systems. Among all possible candidates, epitaxial quantum dots are currently emerging as one of the brightest sources of highly entangled photons. However, the optimization of both brightness and entanglement currently requires diferent technologies that are difcult to combine in a scalable manner. In this work, we overcome this challenge by developing a novel device consisting of a quantum dot embedded in a circular Bragg resonator, in turn, integrated onto a micromachined piezoelectric actuator. The resonator engineers the light-matter interaction to empower extraction efciencies up to 0.69(4). Simultaneously, the actuator manipulates strain felds that tune the quantum dot for the generation of entangled photons with corrected fdelities to a maximally entangled state up to 0.96(1). This hybrid technology has the potential to overcome the limitations of the key rates that plague QD-based entangled sources for entanglement-based quantum key distribution and entanglement-based quantum networks.

Original language	English
Article number	13
Pages (from-to)	13
Number of pages	13
Journal	eLight
Volume	4
Issue number	1
DOIs	https://doi.org/10.1186/s43593-024-00072-8
Publication status	Published - Dec 2024

Fields of science

103 Physics, Astronomy

JKU Focus areas

Digital Transformation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1186/s43593-024-00072-8

Cite this

Rota, M., Krieger, T., Buchinger, Q., Beccaceci, M., Neuwirth, J., Huet, H., Horová, N., Lovicu, G., Ronco, G., Covre Da Silva, S., Pettinari, G., Moczala-Dusanowska, M., Kohlberger, C., Manna, S., Stroj, S., Freund, J., Yuan, X., Schneider, C., Jezek, M., ... Trotta, R. (2024). A source of entangled photons based on a cavity-enhanced and strain-tuned GaAs quantum dot. eLight, 4(1), 13. Article 13. https://doi.org/10.1186/s43593-024-00072-8

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title = "A source of entangled photons based on a cavity-enhanced and strain-tuned GaAs quantum dot",

abstract = "A quantum-light source that delivers photons with a high brightness and a high degree of entanglement is fundamental for the development of efcient entanglement-based quantum-key distribution systems. Among all possible candidates, epitaxial quantum dots are currently emerging as one of the brightest sources of highly entangled photons. However, the optimization of both brightness and entanglement currently requires diferent technologies that are difcult to combine in a scalable manner. In this work, we overcome this challenge by developing a novel device consisting of a quantum dot embedded in a circular Bragg resonator, in turn, integrated onto a micromachined piezoelectric actuator. The resonator engineers the light-matter interaction to empower extraction efciencies up to 0.69(4). Simultaneously, the actuator manipulates strain felds that tune the quantum dot for the generation of entangled photons with corrected fdelities to a maximally entangled state up to 0.96(1). This hybrid technology has the potential to overcome the limitations of the key rates that plague QD-based entangled sources for entanglement-based quantum key distribution and entanglement-based quantum networks.",

author = "Michele Rota and Tobias Krieger and Quirin Buchinger and M. Beccaceci and Julia Neuwirth and H. Huet and N. Horov{\'a} and Gabriele Lovicu and G. Ronco and \{Covre Da Silva\}, Saimon and G. Pettinari and Magdalena Moczala-Dusanowska and Christoph Kohlberger and Santanu Manna and Sandra Stroj and Julia Freund and Xueyong Yuan and Christian Schneider and Miroslav Jezek and Sven H{\"o}fling and \{Basso Basset\}, Francesco and Tobias Huber-Loyola and Armando Rastelli and Rinaldo Trotta",

year = "2024",

month = dec,

doi = "10.1186/s43593-024-00072-8",

language = "English",

volume = "4",

pages = "13",

journal = "eLight",

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Rota, M, Krieger, T, Buchinger, Q, Beccaceci, M, Neuwirth, J, Huet, H, Horová, N, Lovicu, G, Ronco, G, Covre Da Silva, S, Pettinari, G, Moczala-Dusanowska, M, Kohlberger, C, Manna, S, Stroj, S, Freund, J, Yuan, X, Schneider, C, Jezek, M, Höfling, S, Basso Basset, F, Huber-Loyola, T, Rastelli, A & Trotta, R 2024, 'A source of entangled photons based on a cavity-enhanced and strain-tuned GaAs quantum dot', eLight, vol. 4, no. 1, 13, pp. 13. https://doi.org/10.1186/s43593-024-00072-8

TY - JOUR

T1 - A source of entangled photons based on a cavity-enhanced and strain-tuned GaAs quantum dot

AU - Rota, Michele

AU - Krieger, Tobias

AU - Buchinger, Quirin

AU - Beccaceci, M.

AU - Neuwirth, Julia

AU - Huet, H.

AU - Horová, N.

AU - Lovicu, Gabriele

AU - Ronco, G.

AU - Covre Da Silva, Saimon

AU - Pettinari, G.

AU - Moczala-Dusanowska, Magdalena

AU - Kohlberger, Christoph

AU - Manna, Santanu

AU - Stroj, Sandra

AU - Freund, Julia

AU - Yuan, Xueyong

AU - Schneider, Christian

AU - Jezek, Miroslav

AU - Höfling, Sven

AU - Basso Basset, Francesco

AU - Huber-Loyola, Tobias

AU - Rastelli, Armando

AU - Trotta, Rinaldo

PY - 2024/12

Y1 - 2024/12

N2 - A quantum-light source that delivers photons with a high brightness and a high degree of entanglement is fundamental for the development of efcient entanglement-based quantum-key distribution systems. Among all possible candidates, epitaxial quantum dots are currently emerging as one of the brightest sources of highly entangled photons. However, the optimization of both brightness and entanglement currently requires diferent technologies that are difcult to combine in a scalable manner. In this work, we overcome this challenge by developing a novel device consisting of a quantum dot embedded in a circular Bragg resonator, in turn, integrated onto a micromachined piezoelectric actuator. The resonator engineers the light-matter interaction to empower extraction efciencies up to 0.69(4). Simultaneously, the actuator manipulates strain felds that tune the quantum dot for the generation of entangled photons with corrected fdelities to a maximally entangled state up to 0.96(1). This hybrid technology has the potential to overcome the limitations of the key rates that plague QD-based entangled sources for entanglement-based quantum key distribution and entanglement-based quantum networks.

AB - A quantum-light source that delivers photons with a high brightness and a high degree of entanglement is fundamental for the development of efcient entanglement-based quantum-key distribution systems. Among all possible candidates, epitaxial quantum dots are currently emerging as one of the brightest sources of highly entangled photons. However, the optimization of both brightness and entanglement currently requires diferent technologies that are difcult to combine in a scalable manner. In this work, we overcome this challenge by developing a novel device consisting of a quantum dot embedded in a circular Bragg resonator, in turn, integrated onto a micromachined piezoelectric actuator. The resonator engineers the light-matter interaction to empower extraction efciencies up to 0.69(4). Simultaneously, the actuator manipulates strain felds that tune the quantum dot for the generation of entangled photons with corrected fdelities to a maximally entangled state up to 0.96(1). This hybrid technology has the potential to overcome the limitations of the key rates that plague QD-based entangled sources for entanglement-based quantum key distribution and entanglement-based quantum networks.

UR - https://www.scopus.com/pages/publications/85199348135

U2 - 10.1186/s43593-024-00072-8

DO - 10.1186/s43593-024-00072-8

M3 - Article

C2 - 39070906

VL - 4

SP - 13

JO - eLight

JF - eLight

IS - 1

M1 - 13

ER -

A source of entangled photons based on a cavity-enhanced and strain-tuned GaAs quantum dot

Abstract

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JKU Focus areas

UN SDGs

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