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Rational design of efficient defect-based quantum emitters
APL PhotonicsSingle-photon emitters are an essential component of quantum networks, and defects or impurities in semiconductors are a promising platform to realize such quantum emitters.
M. Turiansky +3 more
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Deterministic Generation of Concatenated Graph Codes from Quantum Emitters
PRX QuantumPhoton loss is the dominant noise mechanism in photonic quantum technologies. Designing fault-tolerant schemes with high tolerance to loss is thus a central challenge in scaling photonic quantum information processors.
Love A. Pettersson +2 more
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2017 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC), 2017
We demonstrate first room temperature, and ultrabright single photon emission from a color center in two-dimensional multilayer hexagonal boron nitride. Density Functional Theory calculations indicate that vacancy-related centers are a likely source of the emission.
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We demonstrate first room temperature, and ultrabright single photon emission from a color center in two-dimensional multilayer hexagonal boron nitride. Density Functional Theory calculations indicate that vacancy-related centers are a likely source of the emission.
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Science, 2018
Quantum Optics Exploiting topological properties of a system allows certain properties to be protected against the disorder and scattering caused by defects. Barik et al. demonstrate a strong light-matter interaction in a topological photonic structure (see the Perspective by Amo).
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Quantum Optics Exploiting topological properties of a system allows certain properties to be protected against the disorder and scattering caused by defects. Barik et al. demonstrate a strong light-matter interaction in a topological photonic structure (see the Perspective by Amo).
openaire +1 more source
Science, 2019
Quantum Optics The development of many optical quantum technologies is dependent on the availability of solid-state single quantum emitters with near-perfect optical coherence. Light-emitting defects in diamond and quantum dots grown by molecular beam epitaxy have demonstrated transform-limited emission linewidths. However, they are limited in terms of
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Quantum Optics The development of many optical quantum technologies is dependent on the availability of solid-state single quantum emitters with near-perfect optical coherence. Light-emitting defects in diamond and quantum dots grown by molecular beam epitaxy have demonstrated transform-limited emission linewidths. However, they are limited in terms of
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2D quantum emitters for Integrated Quantum Photonics
Conference on Lasers and Electro-Optics, 2022Integrated quantum photonic circuits is an emerging area that requires efficient coupling of quantum light sources to waveguides and optical resonators. So far, much effort is devoted to developing on-chip systems from 3D crystals such as diamond or gallium arsenide.
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Coupling Hexagonal Boron Nitride Quantum Emitters to Photonic Crystal Cavities
ACS Nano, 2020Quantum photonics technologies require a scalable approach for the integration of non-classical light sources with photonic resonators to achieve strong light confinement and enhancement of quantum light emission.
Johannes E Froch +2 more
exaly +2 more sources
Quantum emitters dynamically coupled to a quantum field
AIP Conference Proceedings, 2013We study theoretically the dynamical response of a set of solid-state quantum emitters arbitrarily coupled to a single-mode microcavity system. Ramping the matter-field coupling strength in round trips, we quantify the hysteresis or irreversible quantum dynamics.
O. L. Acevedo +3 more
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Nanophotonic enhanced quantum emitters
Quantum Nanophotonics, 2017Quantum dots are excellent solid-state quantum sources, because of their stability, their narrow spectral linewidth, and radiative lifetime in the range of 1ns. Most importantly, they can be integrated into more complex nanophononics devices, to realize high quality quantum emitters of single photons or entangled photon sources.
Malte C. Gather +4 more
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