Optimized designs for telecom-wavelength quantum light sources based on hybrid circular Bragg gratings
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Title
Optimized designs for telecom-wavelength quantum light sources based on hybrid circular Bragg gratings
Authors
Keywords
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Journal
OPTICS EXPRESS
Volume 27, Issue 25, Pages 36824
Publisher
The Optical Society
Online
2019-12-05
DOI
10.1364/oe.27.036824
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- (2018) Alexander Schlehahn et al. Scientific Reports
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- (2018) H. Snijders et al. Physical Review Applied
- The quantum technologies roadmap: a European community view
- (2018) Antonio Acín et al. NEW JOURNAL OF PHYSICS
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- Cryogenic photoluminescence imaging system for nanoscale positioning of single quantum emitters
- (2017) Jin Liu et al. REVIEW OF SCIENTIFIC INSTRUMENTS
- Efficient fiber-coupled single-photon source based on quantum dots in a photonic-crystal waveguide
- (2017) Raphaël S. Daveau et al. Optica
- A fiber-coupled quantum-dot on a photonic tip
- (2016) Davide Cadeddu et al. APPLIED PHYSICS LETTERS
- Solid-state single-photon emitters
- (2016) Igor Aharonovich et al. Nature Photonics
- Near-Transform-Limited Single Photons from an Efficient Solid-State Quantum Emitter
- (2016) Hui Wang et al. PHYSICAL REVIEW LETTERS
- Exploring Dephasing of a Solid-State Quantum Emitter via Time- and Temperature-Dependent Hong-Ou-Mandel Experiments
- (2016) A. Thoma et al. PHYSICAL REVIEW LETTERS
- Metal-organic vapor-phase epitaxy-grown ultra-low density InGaAs/GaAs quantum dots exhibiting cascaded single-photon emission at 1.3 μm
- (2015) Matthias Paul et al. APPLIED PHYSICS LETTERS
- Highly indistinguishable photons from deterministic quantum-dot microlenses utilizing three-dimensional in situ electron-beam lithography
- (2015) M. Gschrey et al. Nature Communications
- Efficient single photon source based on μ-fibre-coupled tunable microcavity
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- Secure quantum key distribution
- (2014) Hoi-Kwong Lo et al. Nature Photonics
- In situ electron-beam lithography of deterministic single-quantum-dot mesa-structures using low-temperature cathodoluminescence spectroscopy
- (2013) M. Gschrey et al. APPLIED PHYSICS LETTERS
- Bright solid-state sources of indistinguishable single photons
- (2013) O. Gazzano et al. Nature Communications
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- (2011) M. Davanço et al. APPLIED PHYSICS LETTERS
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- Quantum dot micropillars
- (2010) S Reitzenstein et al. JOURNAL OF PHYSICS D-APPLIED PHYSICS
- Quantum computers
- (2010) T. D. Ladd et al. NATURE
- Photonic quantum technologies
- (2009) Jeremy L. O'Brien et al. Nature Photonics
- Controlled Light-Matter Coupling for a Single Quantum Dot Embedded in a Pillar Microcavity Using Far-Field Optical Lithography
- (2009) A. Dousse et al. PHYSICAL REVIEW LETTERS
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