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Topological photonics promises to revolutionize strategies of light manipulation. Dr. Daria Smirnova developed innovative approaches to probe and generate topological states of light, paving the way towards disorder-immune photonic technologies. Her results help bridge nonlinear optics with topological physics for the integrated and robust photonic circuitry at the nanoscale.
Dr. Smirnova's approach to research has already resulted in a remarkable level of academic excellence and influential insights promoting optical science. In September of 2020, Dr. Smirnova was recognized as one of Australia's top 40 young researchers by the national newspaper, The Australian, in their special report.
Her conceptual framework, which uses nanostructures made of high-index dielectric materials with judiciously designed resonant elements and lattice arrangements, shows a special promise for practical implementations of the topological order for light. These studies advance the fundamental nanoscale optics, and they are expected to benefit globally important photonic applications, ranging from high-speed data processing to nanolasing and quantum light sources.
Dr. Smirnova's approach to research has already resulted in a remarkable level of academic excellence and influential insights promoting optical science. In September of 2020, Dr. Smirnova was recognized as one of Australia's top 40 young researchers by the national newspaper, The Australian, in their special report.
Her conceptual framework, which uses nanostructures made of high-index dielectric materials with judiciously designed resonant elements and lattice arrangements, shows a special promise for practical implementations of the topological order for light. These studies advance the fundamental nanoscale optics, and they are expected to benefit globally important photonic applications, ranging from high-speed data processing to nanolasing and quantum light sources.
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论文共 150 篇作者统计合作学者相似作者
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Elsevier eBookspp.575-586, (2024)
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Yuma Kawaguchi,Daria Smirnova,Filipp Komissarenko,Svetlana Kiriushechkina,Anton Vakulenko,Mengyao Li,Andrea Alù, Alexander B Khanikaev
Science advancesno. 15 (2024): eadn6095-eadn6095
NANOPHOTONICSno. 3 (2024): 271-281
K. Y. Bliokh,E. Karimi, M. J. Padgett,M. A. Alonso,M. R. Dennis,A. Dudley,A. Forbes,S. Zahedpour, S. W. Hancock, H. M. Milchberg,S. Rotter, F. Nori,
arxiv(2023)
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2023 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)pp.1-1, (2023)
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Science Advancesno. 12 (2023)
Metamaterials, Metadevices, and Metasystems 2022 (2022)
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