A
Andrei G. Borisov
Researcher at Université Paris-Saclay
Publications - 212
Citations - 9674
Andrei G. Borisov is an academic researcher from Université Paris-Saclay. The author has contributed to research in topics: Ion & Scattering. The author has an hindex of 43, co-authored 202 publications receiving 8614 citations. Previous affiliations of Andrei G. Borisov include Moscow State University & Centre national de la recherche scientifique.
Papers
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Journal ArticleDOI
Revealing the quantum regime in tunnelling plasmonics
Kevin J. Savage,Matthew M. Hawkeye,Ruben Esteban,Andrei G. Borisov,Andrei G. Borisov,Javier Aizpurua,Jeremy J. Baumberg +6 more
TL;DR: By simultaneously measuring both the electrical and optical properties of two gold nanostructures with controllable subnanometre separation, this work reveals the quantum regime of tunnelling plasmonics in unprecedented detail and implies a quantum limit for plAsmonic field confinement of about 10−8λ3 for visible light.
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Bridging quantum and classical plasmonics with a quantum-corrected model
TL;DR: The quantum-corrected model (QCM), a novel approach that incorporates quantum-mechanical effects within a classical electrodynamic framework, is presented, opening a new venue for addressing quantum effects in realistic plasmonic systems.
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Bound States in the Continuum in Photonics
TL;DR: It is shown that the interaction between trapped electromagnetic modes can lead to scattering resonances with practically zero width, which are the bound states in the radiation continuum first discovered in quantum systems by von Neumann and Wigner.
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Quantum mechanical effects in plasmonic structures with subnanometre gaps.
Wenqi Zhu,Ruben Esteban,Andrei G. Borisov,Jeremy J. Baumberg,Peter Nordlander,Henri J. Lezec,Javier Aizpurua,Kenneth B. Crozier +7 more
TL;DR: This review outlines the findings of many groups into quantum mechanical effects in nanogap plasmons, and discusses outstanding challenges and future directions.
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Quantum Plasmonics: Nonlinear Effects in the Field Enhancement of a Plasmonic Nanoparticle Dimer
Dana Codruta Marinica,Andrey K. Kazansky,Andrey K. Kazansky,Peter Nordlander,Javier Aizpurua,Andrei G. Borisov +5 more
TL;DR: It is shown that both classical as well as linear quantum mechanical descriptions of the system fail even for moderate incident light intensities and the coupling between the two nanoparticles and the field enhancement is reduced as compared to linear theory.