Generation of single photons from an atom-cavity system. M. Ground-State Cooling of a Single Atom at the Center of an Optical Cavity. A. Nondestructive Detection of an Optical Photon. A. Rempe Physical Review Letters 114, 220501 (2015)Ī quantum gate between a flying optical photon and a single trapped atom. A. Heralded Storage of a Photonic Quantum Bit in a Single Atom. N. Towards quantum networks of single spins: analysis of a quantum memory with an optical interface in diamond. M. Loophole-free Bell inequality violation using electron spins separated by 1.3 kilometres. B. Loophole-free Bell test using electron spins in diamond: second experiment and additional analysis. B. Robust Quantum-Network Memory Using Decoherence-Protected Subspaces of Nuclear Spins. A. Hanson Science 356, 928 (2017).ĭesign and low-temperature characterization of a tunable microcavity for diamond-based quantum networks. S. Elkouss Quantum Science and Technology 3, 3 (2018)Įntanglement distillation between solid-state quantum network nodes. N. Realistic parameter regimes for a single sequential quantum repeater. F. (pdf) Publications from Andreas' PhD and PostDoc: (see also google scholar) Introduction to the field:Ĭavity-based quantum networks with single atoms and optical photons. A. 10, 041025 (2020). A popular summary can be found in our press release. Reiserer Optica 8(1) 40 (2021). Selected for the Journal cover!Ĭoherent and Purcell-Enhanced Emission from Erbium Dopants in a Cryogenic High-Q Resonator. B.Merkel, A. The article has been highlighted in the "spotlight on optics" by the Optical Society of America.Įrbium dopants in nanophotonic silicon waveguides. L. Laser stabilization to a cryogenic fiber ring resonator. B. 127, 030501 (2021)Ĭoherent Control in the Ground and Optically Excited States of an Ensemble of Erbium Dopants. P. 12, 041009 (2022).ĭynamical Decoupling of Spin Ensembles with Strong Anisotropic Interactions. B. Narrow optical transitions in erbium-implanted silicon waveguides. A. 8, eabo4538 (2022). Selected for the journal cover! Spectral multiplexing of telecom emitters with stable transition frequency. A. You may also look at our popular press release !Ĭavity-Enhanced Quantum Network Nodes. A. Purcell enhancement of single-photon emitters in silicon. A.
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