Abstract
We develop a quantum photonic platform that interconnects a high-quality quantum dot single-photon source and a low-loss photonic integrated circuit made in silicon nitride. The platform is characterized and programmed to demonstrate various multiphoton applications, including bosonic suppression laws and photonic entanglement generation. The results show a promising technological route forward to scale-up photonic quantum hardware.
Originalsprog | Engelsk |
---|---|
Artikelnummer | 94 |
Tidsskrift | npj Quantum Information |
Vol/bind | 9 |
Udgave nummer | 1 |
Antal sider | 5 |
DOI | |
Status | Udgivet - 2023 |
Bibliografisk note
Publisher Copyright:© 2023, Springer Nature Limited.
Adgang til dokumentet
Citationsformater
- APA
- Standard
- Harvard
- Vancouver
- Author
- BIBTEX
- RIS
Deterministic photon source interfaced with a programmable silicon-nitride integrated circuit. / Wang, Ying; Faurby, Carlos F.D.; Ruf, Fabian; Sund, Patrik I.; Nielsen, Kasper; Volet, Nicolas; Heck, Martijn J.R.; Bart, Nikolai; Wieck, Andreas D.; Ludwig, Arne; Midolo, Leonardo; Paesani, Stefano; Lodahl, Peter.
I: npj Quantum Information, Bind 9, Nr. 1, 94, 2023.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review
}
TY - JOUR
T1 - Deterministic photon source interfaced with a programmable silicon-nitride integrated circuit
AU - Wang, Ying
AU - Faurby, Carlos F.D.
AU - Ruf, Fabian
AU - Sund, Patrik I.
AU - Nielsen, Kasper
AU - Volet, Nicolas
AU - Heck, Martijn J.R.
AU - Bart, Nikolai
AU - Wieck, Andreas D.
AU - Ludwig, Arne
AU - Midolo, Leonardo
AU - Paesani, Stefano
AU - Lodahl, Peter
N1 - Funding Information: We thank Freja T. Østfeldt, Cecile T. Olesen, Camille Papon, Søren Preisler, and Mikkel T. Mikkelsen for experimental assistance. We acknowledge LioniX International B.V. for the SiN device fabrication. We acknowledge Larissa Vertchenko for assistance with producing Fig. a and Julian Curry Robinson-Tait for taking the photograph shown in Fig. c. We acknowledge funding from the Danish National Research Foundation (Center of Excellence “Hy-Q,” grant number DNRF139), the Novo Nordisk Foundation (Challenge project “Solid-Q”), and Innovationsfonden (grant No. 9090-00031B, FIRE-Q). S.P. acknowledges funding from the Cisco University Research Program Fund (nr. 2021-234494), from the Marie Skłodowska-Curie Fellowship project QSun (nr. 101063763), and from the VILLUM FONDEN research grant VIL50326. L.M. acknowledges funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (No. 949043, NANOMEQ). N.B., A.D.W., and A.L. acknowledge funding from the BMBF contract (No. 16KISQ009). Funding Information: We thank Freja T. Østfeldt, Cecile T. Olesen, Camille Papon, Søren Preisler, and Mikkel T. Mikkelsen for experimental assistance. We acknowledge LioniX International B.V. for the SiN device fabrication. We acknowledge Larissa Vertchenko for assistance with producing Fig. 1 a and Julian Curry Robinson-Tait for taking the photograph shown in Fig. 1 c. We acknowledge funding from the Danish National Research Foundation (Center of Excellence “Hy-Q,” grant number DNRF139), the Novo Nordisk Foundation (Challenge project “Solid-Q”), and Innovationsfonden (grant No. 9090-00031B, FIRE-Q). S.P. acknowledges funding from the Cisco University Research Program Fund (nr. 2021-234494), from the Marie Skłodowska-Curie Fellowship project QSun (nr. 101063763), and from the VILLUM FONDEN research grant VIL50326. L.M. acknowledges funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (No. 949043, NANOMEQ). N.B., A.D.W., and A.L. acknowledge funding from the BMBF contract (No. 16KISQ009). Publisher Copyright: © 2023, Springer Nature Limited.
PY - 2023
Y1 - 2023
N2 - We develop a quantum photonic platform that interconnects a high-quality quantum dot single-photon source and a low-loss photonic integrated circuit made in silicon nitride. The platform is characterized and programmed to demonstrate various multiphoton applications, including bosonic suppression laws and photonic entanglement generation. The results show a promising technological route forward to scale-up photonic quantum hardware.
AB - We develop a quantum photonic platform that interconnects a high-quality quantum dot single-photon source and a low-loss photonic integrated circuit made in silicon nitride. The platform is characterized and programmed to demonstrate various multiphoton applications, including bosonic suppression laws and photonic entanglement generation. The results show a promising technological route forward to scale-up photonic quantum hardware.
U2 - 10.1038/s41534-023-00761-1
DO - 10.1038/s41534-023-00761-1
M3 - Journal article
AN - SCOPUS:85172391254
VL - 9
JO - npj Quantum Information
JF - npj Quantum Information
SN - 2056-6387
IS - 1
M1 - 94
ER -