High yield and ultrafast sources of electrically triggered entangled-photon pairs based on strain-tunable quantum dots
出版年份 2015 全文链接
标题
High yield and ultrafast sources of electrically triggered entangled-photon pairs based on strain-tunable quantum dots
作者
关键词
-
出版物
Nature Communications
Volume 6, Issue 1, Pages -
出版商
Springer Nature
发表日期
2015-12-01
DOI
10.1038/ncomms10067
参考文献
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注意:仅列出部分参考文献,下载原文获取全部文献信息。- Energy-Tunable Sources of Entangled Photons: A Viable Concept for Solid-State-Based Quantum Relays
- (2015) Rinaldo Trotta et al. PHYSICAL REVIEW LETTERS
- Single-photon emitting diode in silicon carbide
- (2015) A. Lohrmann et al. Nature Communications
- Highly indistinguishable photons from deterministic quantum-dot microlenses utilizing three-dimensional in situ electron-beam lithography
- (2015) M. Gschrey et al. Nature Communications
- Electrically pumped single-photon emission at room temperature from a single InGaN/GaN quantum dot
- (2014) Saniya Deshpande et al. APPLIED PHYSICS LETTERS
- Highly Entangled Photons from Hybrid Piezoelectric-Semiconductor Quantum Dot Devices
- (2014) Rinaldo Trotta et al. NANO LETTERS
- On-demand generation of indistinguishable polarization-entangled photon pairs
- (2014) M. Müller et al. Nature Photonics
- Statistical properties of exciton fine structure splitting and polarization angles in quantum dot ensembles
- (2014) Ming Gong et al. PHYSICAL REVIEW B
- Indistinguishable Photons from Separated Silicon-Vacancy Centers in Diamond
- (2014) A. Sipahigil et al. PHYSICAL REVIEW LETTERS
- Observation of strongly entangled photon pairs from a nanowire quantum dot
- (2014) Marijn A. M. Versteegh et al. Nature Communications
- Time-bin entangled photons from a quantum dot
- (2014) Harishankar Jayakumar et al. Nature Communications
- A Nanomembrane-Based Wavelength-Tunable High-Speed Single-Photon-Emitting Diode
- (2013) Jiaxiang Zhang et al. NANO LETTERS
- A silicon carbide room-temperature single-photon source
- (2013) S. Castelletto et al. NATURE MATERIALS
- Towards quantum-dot arrays of entangled photon emitters
- (2013) Gediminas Juska et al. Nature Photonics
- Quantum teleportation using a light-emitting diode
- (2013) J. Nilsson et al. Nature Photonics
- Quantum teleportation of laser-generated photons with an entangled-light-emitting diode
- (2013) R. M. Stevenson et al. Nature Communications
- Nanomembrane Quantum-Light-Emitting Diodes Integrated onto Piezoelectric Actuators
- (2012) R. Trotta et al. ADVANCED MATERIALS
- Electrically driven single-photon source at room temperature in diamond
- (2012) N. Mizuochi et al. Nature Photonics
- Universal Recovery of the Energy-Level Degeneracy of Bright Excitons in InGaAs Quantum Dots without a Structure Symmetry
- (2012) R. Trotta et al. PHYSICAL REVIEW LETTERS
- Generation and control of polarization-entangled photons from GaAs island quantum dots by an electric field
- (2012) Mohsen Ghali et al. Nature Communications
- Strain-induced anticrossing of bright exciton levels in single self-assembled GaAs/AlxGa1−xAs and InxGa1−xAs/GaAs quantum dots
- (2011) J. D. Plumhof et al. PHYSICAL REVIEW B
- Exciton Polarization, Fine-Structure Splitting, and the Asymmetry of Quantum Dots under Uniaxial Stress
- (2011) Ming Gong et al. PHYSICAL REVIEW LETTERS
- An entangled-light-emitting diode
- (2010) C. L. Salter et al. NATURE
- Ultrabright source of entangled photon pairs
- (2010) Adrien Dousse et al. NATURE
- Electric-field-induced coherent coupling of the exciton states in a single quantum dot
- (2010) A. J. Bennett et al. Nature Physics
- Bell-Inequality Violation with a Triggered Photon-Pair Source
- (2009) R. J. Young et al. PHYSICAL REVIEW LETTERS
- Entanglement on Demand through Time Reordering
- (2008) J. E. Avron et al. PHYSICAL REVIEW LETTERS
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