Nathalie P. de Leon, Ph.D.
Affiliations: | Harvard University, Cambridge, MA, United States |
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"Nathalie de Leon"Mean distance: 8.47 | S | N | B | C | P |
Parents
Sign in to add mentorHongkun Park | grad student | 2011 | Harvard | |
(Engineering confined Electrons and Photons at the Nanoscale.) | ||||
Mikhail D. Lukin | post-doc | Harvard (Physics Tree) |
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Publications
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Ourari S, Dusanowski Ł, Horvath SP, et al. (2023) Indistinguishable telecom band photons from a single Er ion in the solid state. Nature. 620: 977-981 |
Zhang ZH, Zuber JA, Rodgers LVH, et al. (2023) Neutral Silicon Vacancy Centers in Undoped Diamond via Surface Control. Physical Review Letters. 130: 166902 |
Chakravarthi S, Yama NS, Abulnaga A, et al. (2023) Hybrid Integration of GaP Photonic Crystal Cavities with Silicon-Vacancy Centers in Diamond by Stamp-Transfer. Nano Letters |
Xie M, Yu X, Rodgers LVH, et al. (2022) Biocompatible surface functionalization architecture for a diamond quantum sensor. Proceedings of the National Academy of Sciences of the United States of America. 119 |
Huang D, Abulnaga A, Welinski S, et al. (2021) Hybrid III-V diamond photonic platform for quantum nodes based on neutral silicon vacancy centers in diamond. Optics Express. 29: 9174-9189 |
Place APM, Rodgers LVH, Mundada P, et al. (2021) New material platform for superconducting transmon qubits with coherence times exceeding 0.3 milliseconds. Nature Communications. 12: 1779 |
Zhang ZH, Stevenson P, Thiering G, et al. (2020) Optically Detected Magnetic Resonance in Neutral Silicon Vacancy Centers in Diamond via Bound Exciton States. Physical Review Letters. 125: 237402 |
Phenicie C, Stevenson P, Welinski S, et al. (2019) Narrow optical linewidths in erbium implanted in TiO2. Nano Letters |
Sangtawesin S, Dwyer BL, Srinivasan S, et al. (2019) Origins of Diamond Surface Noise Probed by Correlating Single-Spin Measurements with Surface Spectroscopy Physical Review X. 9 |
Rose BC, Huang D, Zhang ZH, et al. (2018) Observation of an environmentally insensitive solid-state spin defect in diamond. Science (New York, N.Y.). 361: 60-63 |