Alexey Tiranov
@lxTiranov
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Quantum tech, quantum photonics Junior Prof @psl_univ @ChimieParisTech @CQSDParis Previously: @HyQ_Ucph NBI, GAP-Optique UNIGE, KFU
Paris
Joined June 2012
Are you interested in quantum-grade material development? Please apply for the new PhD opening at Chimie ParisTech - PSL! https://t.co/0ba7iHVktj
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It has been a great pleasure to listen to prof. @andrei_faraon from @Caltech presenting his latest results on quantum science and technology with rare-earth and nano-photonics. #quantum #QuantumTech
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We create entanglement between a flying photon and an integrated quantum-dot spin, a major step towards entanglement swapping in a distributed network. @Nature_NPJ #quantum #physics
https://t.co/G4KTUCy0z9
https://t.co/lR1PifIEV0
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I'm happy to advertise a #phd position opening in Paris at @psl_univ on "Quantum photonics with novel nanomaterials". We are looking for talented and motivated candidates to join our @CQSDParis team at @ChimieParisTech
https://t.co/HNMbhUYbNH
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New paper in Nature NPJ quantum information: Coherent optical-microwave interface for manipulation of low-field electronic clock transitions in 171Yb3+:Y2SiO5 https://t.co/zdfVpGREVq
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Quantum physicists determine how to control two quantum #light sources rather than one @uni_copenhagen @sciencemagazine
phys.org
In a new breakthrough, researchers at the University of Copenhagen, in collaboration with Ruhr University Bochum, have solved a problem that has caused quantum researchers headaches for years. The...
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Collective super- and subradiant dynamics between distant optical quantum emitters
science.org
A photonic crystal waveguide enables distant coupling between multiple solid-state optical quantum emitters.
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Phys. Rev. A 105, 062445 (2022) - Quantum state transfer between a frequency-encoded photonic qubit and a quantum-dot spin in a nanophotonic waveguide https://t.co/7rI8VpN0KL
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Phys. Rev. Lett. 128, 233602 (2022) - Entangling a Hole Spin with a Time-Bin Photon: A Waveguide Approach for Quantum Dot Sources of Multiphoton Entanglement https://t.co/VvwtI32lli
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Phys. Rev. A 105, L030601 (2022) - High-fidelity multiphoton-entangled cluster state with solid-state quantum emitters in photonic nanostructures https://t.co/NgADee2ykS
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Phys. Rev. A 104, 052604 (2021) - Fidelity of time-bin-entangled multiphoton states from a quantum emitter https://t.co/61KAxbXy50
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Phys. Rev. Lett. 126, 013602 (2021) - Coherent Spin-Photon Interface with Waveguide Induced Cycling Transitions https://t.co/vgOCrcowet
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Phys. Rev. X 10, 031060 (2020) - Coherence Time Extension by Large-Scale Optical Spin Polarization in a Rare-Earth Doped Crystal https://t.co/wrWF2Ty8O5
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Optical storage for 0.53 s in a solid-state atomic frequency comb memory using dynamical decoupling https://t.co/pomVCh6ESk
@IOPscience
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Phys. Rev. Lett. 124, 053606 (2020) - Optical Spin-Wave Storage in a Solid-State Hybridized Electron-Nuclear Spin Ensemble https://t.co/gai1Kd9Nzt
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Phys. Rev. B 98, 195110 (2018) - Spectroscopic study of hyperfine properties in 171Yb3+:YSi05 https://t.co/ZokJAHjkii
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Researchers from @UNIGEnews, working closely with @INC_CNRS, have discovered a new #material that can be used to store and repeat the #quantum signal rapidly – could this be the beginning of a global quantum #network? https://t.co/qhQxHLucIn
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Efficient optical pumping using hyperfine levels in 145Nd3+:Y2SiO5 and its application to optical storage https://t.co/uhlCzK3yEY через @IOPscience
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