Quantum dots in micropillar cavities for scalable photonic applications

Magdalena Moczała-Dusanowska, Tobias Huber*, Łukasz Dusanowski, Stefan Gerhardt, Jonathan Jurkat, Andreas Pfenning, Rinaldo Trotta, Armando Rastelli, Niels Gregersen, Christian Schneider, Sven Hofling

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingArticle in proceedingsResearchpeer-review

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Abstract

Scalable quantum photonic applications require wavelength reproducibility and high quality of the emitted photons. To address these issues, we investigate strain-tuning of
self-assembled semiconductor quantum dots embedded into micropillar cavities
Original languageEnglish
Title of host publicationFrontiers in Optics 2019
Number of pages2
PublisherOptical Society of America (OSA)
Publication date2019
Article numberFM3D.2
ISBN (Print)978-1-943580-67-5
Publication statusPublished - 2019
EventFrontiers in Optics 2019
- Marriott Wardman Park, Washington, United States
Duration: 15 Sep 201919 Sep 2019
https://www.frontiersinoptics.com/

Conference

ConferenceFrontiers in Optics 2019
LocationMarriott Wardman Park
CountryUnited States
CityWashington
Period15/09/201919/09/2019
Internet address

Bibliographical note

From the session: Quantum Photonics (FM3D)

Cite this

Moczała-Dusanowska, M., Huber, T., Dusanowski, Ł., Gerhardt, S., Jurkat, J., Pfenning, A., ... Hofling, S. (2019). Quantum dots in micropillar cavities for scalable photonic applications. In Frontiers in Optics 2019 [FM3D.2] Optical Society of America (OSA).
Moczała-Dusanowska, Magdalena ; Huber, Tobias ; Dusanowski, Łukasz ; Gerhardt, Stefan ; Jurkat, Jonathan ; Pfenning, Andreas ; Trotta, Rinaldo ; Rastelli, Armando ; Gregersen, Niels ; Schneider, Christian ; Hofling, Sven. / Quantum dots in micropillar cavities for scalable photonic applications. Frontiers in Optics 2019. Optical Society of America (OSA), 2019.
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title = "Quantum dots in micropillar cavities for scalable photonic applications",
abstract = "Scalable quantum photonic applications require wavelength reproducibility and high quality of the emitted photons. To address these issues, we investigate strain-tuning ofself-assembled semiconductor quantum dots embedded into micropillar cavities",
author = "Magdalena Moczała-Dusanowska and Tobias Huber and Łukasz Dusanowski and Stefan Gerhardt and Jonathan Jurkat and Andreas Pfenning and Rinaldo Trotta and Armando Rastelli and Niels Gregersen and Christian Schneider and Sven Hofling",
note = "From the session: Quantum Photonics (FM3D)",
year = "2019",
language = "English",
isbn = "978-1-943580-67-5",
booktitle = "Frontiers in Optics 2019",
publisher = "Optical Society of America (OSA)",

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Moczała-Dusanowska, M, Huber, T, Dusanowski, Ł, Gerhardt, S, Jurkat, J, Pfenning, A, Trotta, R, Rastelli, A, Gregersen, N, Schneider, C & Hofling, S 2019, Quantum dots in micropillar cavities for scalable photonic applications. in Frontiers in Optics 2019., FM3D.2, Optical Society of America (OSA), Frontiers in Optics 2019
, Washington, United States, 15/09/2019.

Quantum dots in micropillar cavities for scalable photonic applications. / Moczała-Dusanowska, Magdalena; Huber, Tobias; Dusanowski, Łukasz; Gerhardt, Stefan; Jurkat, Jonathan; Pfenning, Andreas; Trotta, Rinaldo; Rastelli, Armando; Gregersen, Niels; Schneider, Christian; Hofling, Sven.

Frontiers in Optics 2019. Optical Society of America (OSA), 2019. FM3D.2.

Research output: Chapter in Book/Report/Conference proceedingArticle in proceedingsResearchpeer-review

TY - GEN

T1 - Quantum dots in micropillar cavities for scalable photonic applications

AU - Moczała-Dusanowska, Magdalena

AU - Huber, Tobias

AU - Dusanowski, Łukasz

AU - Gerhardt, Stefan

AU - Jurkat, Jonathan

AU - Pfenning, Andreas

AU - Trotta, Rinaldo

AU - Rastelli, Armando

AU - Gregersen, Niels

AU - Schneider, Christian

AU - Hofling, Sven

N1 - From the session: Quantum Photonics (FM3D)

PY - 2019

Y1 - 2019

N2 - Scalable quantum photonic applications require wavelength reproducibility and high quality of the emitted photons. To address these issues, we investigate strain-tuning ofself-assembled semiconductor quantum dots embedded into micropillar cavities

AB - Scalable quantum photonic applications require wavelength reproducibility and high quality of the emitted photons. To address these issues, we investigate strain-tuning ofself-assembled semiconductor quantum dots embedded into micropillar cavities

M3 - Article in proceedings

SN - 978-1-943580-67-5

BT - Frontiers in Optics 2019

PB - Optical Society of America (OSA)

ER -

Moczała-Dusanowska M, Huber T, Dusanowski Ł, Gerhardt S, Jurkat J, Pfenning A et al. Quantum dots in micropillar cavities for scalable photonic applications. In Frontiers in Optics 2019. Optical Society of America (OSA). 2019. FM3D.2