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pro vyhledávání: '"Stramma, Alexander M."'
Autor:
Guo, Xinghan, Stramma, Alexander M., Li, Zixi, Roth, William G., Huang, Benchen, Jin, Yu, Parker, Ryan A., Martínez, Jesús Arjona, Shofer, Noah, Michaels, Cathryn P., Purser, Carola P., Appel, Martin H., Alexeev, Evgeny M., Liu, Tianle, Ferrari, Andrea C., Awschalom, David D., Delegan, Nazar, Pingault, Benjamin, Galli, Giulia, Heremans, F. Joseph, Atatüre, Mete, High, Alexander A.
Robust spin-photon interfaces in solids are essential components in quantum networking and sensing technologies. Ideally, these interfaces combine a long-lived spin memory, coherent optical transitions, fast and high-fidelity spin manipulation, and s
Externí odkaz:
http://arxiv.org/abs/2307.11916
Autor:
Harris, Isaac B. W., Michaels, Cathryn P., Chen, Kevin C., Parker, Ryan A., Titze, Michael, Martinez, Jesus Arjona, Sutula, Madison, Christen, Ian R., Stramma, Alexander M., Roth, William, Purser, Carola M., Appel, Martin Hayhurst, Li, Chao, Trusheim, Matthew E., Palmer, Nicola L., Markham, Matthew L., Bielejec, Edward S., Atature, Mete, Englund, Dirk
A quantum register coupled to a spin-photon interface is a key component in quantum communication and information processing. Group-IV color centers in diamond (SiV, GeV, and SnV) are promising candidates for this application, comprising an electroni
Externí odkaz:
http://arxiv.org/abs/2306.00164
Autor:
Parker, Ryan A., Martínez, Jesús Arjona, Chen, Kevin C., Stramma, Alexander M., Harris, Isaac B., Michaels, Cathryn P., Trusheim, Matthew E., Appel, Martin Hayhurst, Purser, Carola M., Roth, William G., Englund, Dirk, Atatüre, Mete
A contemporary challenge for the scalability of quantum networks is developing quantum nodes with simultaneous high photonic efficiency and long-lived qubits. Here, we present a fibre-packaged nanophotonic diamond waveguide hosting a tin-vacancy cent
Externí odkaz:
http://arxiv.org/abs/2305.18923
Autor:
Martínez, Jesús Arjona, Parker, Ryan A., Chen, Kevin C., Purser, Carola M., Li, Linsen, Michaels, Cathryn P., Stramma, Alexander M., Debroux, Romain, Harris, Isaac B., Appel, Martin Hayhurst, Nichols, Eleanor C., Trusheim, Matthew E., Gangloff, Dorian A., Englund, Dirk, Atatüre, Mete
Tin-vacancy centers in diamond are promising spin-photon interfaces owing to their high quantum-efficiency, large Debye-Waller factor, and compatibility with photonic nanostructuring. Benchmarking their single-photon indistinguishability is a key cha
Externí odkaz:
http://arxiv.org/abs/2206.15239
Autor:
Debroux, Romain, Michaels, Cathryn P., Purser, Carola M., Wan, Noel, Trusheim, Matthew E., Martínez, Jesús Arjona, Parker, Ryan A., Stramma, Alexander M., Chen, Kevin C., de Santis, Lorenzo, Alexeev, Evgeny M., Ferrari, Andrea C., Englund, Dirk, Gangloff, Dorian A., Atatüre, Mete
Group-IV color centers in diamond are a promising light-matter interface for quantum networking devices. The negatively charged tin-vacancy center (SnV) is particularly interesting, as its large spin-orbit coupling offers strong protection against ph
Externí odkaz:
http://arxiv.org/abs/2106.00723
Autor:
Michaels, Cathryn P., Martínez, Jesús Arjona, Debroux, Romain, Parker, Ryan A., Stramma, Alexander M., Huber, Luca I., Purser, Carola M., Atatüre, Mete, Gangloff, Dorian A.
Publikováno v:
Quantum 5, 565 (2021)
Photonic cluster states are a powerful resource for measurement-based quantum computing and loss-tolerant quantum communication. Proposals to generate multi-dimensional lattice cluster states have identified coupled spin-photon interfaces, spin-ancil
Externí odkaz:
http://arxiv.org/abs/2104.12619
Akademický článek
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Autor:
Arjona Martínez J; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom., Parker RA; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom., Chen KC; Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA., Purser CM; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom., Li L; Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA., Michaels CP; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom., Stramma AM; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom., Debroux R; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom., Harris IB; Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA., Hayhurst Appel M; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom., Nichols EC; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom., Trusheim ME; Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA., Gangloff DA; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom.; Department of Engineering Science, University of Oxford, Parks Road, Oxford OX1 3PJ, United Kingdom., Englund D; Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA., Atatüre M; Cavendish Laboratory, University of Cambridge, JJ Thomson Avenue, Cambridge CB3 0HE, United Kingdom.
Publikováno v:
Physical review letters [Phys Rev Lett] 2022 Oct 21; Vol. 129 (17), pp. 173603.