G
Gennady Shvets
Researcher at Cornell University
Publications - 471
Citations - 22427
Gennady Shvets is an academic researcher from Cornell University. The author has contributed to research in topics: Laser & Plasma. The author has an hindex of 64, co-authored 449 publications receiving 19516 citations. Previous affiliations of Gennady Shvets include French Alternative Energies and Atomic Energy Commission & Princeton Plasma Physics Laboratory.
Papers
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Journal ArticleDOI
Photonic topological insulators
Alexander B. Khanikaev,S. Hossein Mousavi,Wang-Kong Tse,Mehdi Kargarian,Allan H. MacDonald,Gennady Shvets +5 more
TL;DR: It is shown that metacrystals-superlattices of metamaterials with judiciously designed properties-provide a platform for designing topologically non-trivial photonic states, similar to those identified for condensed-matter topological insulators.
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Self-Assembled Plasmonic Nanoparticle Clusters
Jonathan A. Fan,Chihhui Wu,Kui Bao,Jiming Bao,Rizia Bardhan,Naomi J. Halas,Vinothan N. Manoharan,Peter Nordlander,Gennady Shvets,Federico Capasso +9 more
TL;DR: It is shown that self-assembled clusters of metal-dielectric spheres are the basis for nanophotonic structures, and plasmon modes exhibiting strong magnetic and Fano-like resonances emerge.
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Fano-resonant asymmetric metamaterials for ultrasensitive spectroscopy and identification of molecular monolayers
Chihhui Wu,Alexander B. Khanikaev,Ronen Adato,Nihal Arju,Ahmet Ali Yanik,Hatice Altug,Gennady Shvets +6 more
TL;DR: In this paper, an infrared plasmonic surface based on a Fano-resonant asymmetric metamaterial exhibiting sharp resonances caused by the interference between subradiant and super-radiant resonances was introduced.
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Photonic Analogue of Two-dimensional Topological Insulators and Helical One-Way Edge Transport in Bi-Anisotropic Metamaterials
Alexander B. Khanikaev,S. Hossein Mousavi,Wang-Kong Tse,Mehdi Kargarian,Allan H. MacDonald,Gennady Shvets +5 more
TL;DR: In this paper, the authors show that a judicious choice of the metamaterial parameters can create photonic phases that support a pair of helical edge states, and these edge states enable one-way photonic transport that is robust against disorder.
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Two-dimensional topological photonics
TL;DR: In this paper, the authors summarize the latest advances in this highly dynamic field, with special emphasis on the experimental work on two-dimensional photonic topological structures, such as reflection-free sharply bent waveguides, robust delay lines, spin-polarized switches and non-reciprocal devices.