E
Eloïse Devaux
Researcher at University of Strasbourg
Publications - 74
Citations - 7410
Eloïse Devaux is an academic researcher from University of Strasbourg. The author has contributed to research in topics: Plasmon & Surface plasmon. The author has an hindex of 37, co-authored 71 publications receiving 6377 citations. Previous affiliations of Eloïse Devaux include University of Burgundy & Aalborg University.
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Surface Plasmon Polaritons and Their Role in the Enhanced Transmission of Light through Periodic Arrays of Subwavelength Holes in a Metal Film
TL;DR: Results of the transmitted, reflected, and absorbed power associated with the enhanced transmittance of light through a silver film pierced by a periodic array of subwavelength holes shows that the transmission features of the array are consistent with p-polarized resonant modes of the structure.
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Channel Plasmon-Polariton Guiding by Subwavelength Metal Grooves
TL;DR: A simple model based on the effective-index method that accounts for the main features of CPP guiding and provides a clear physical picture of this phenomenon is developed.
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Modifying chemical landscapes by coupling to vacuum fields.
TL;DR: It is demonstrated here that one can indeed influence a chemical reaction by strongly coupling the energy landscape governing the reaction pathway to vacuum fields.
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Efficient unidirectional nanoslit couplers for surface plasmons
F. López-Tejeira,Sergio G. Rodrigo,Luis Martín-Moreno,Francisco J. Garcia-Vidal,Eloïse Devaux,Thomas W. Ebbesen,Joachim R. Krenn,Ilya P. Radko,Sergey I. Bozhevolnyi,María Ujué González,Jean-Claude Weeber,Alain Dereux +11 more
TL;DR: In this paper, a back-side slit-illumination method that incorporates a periodic array of grooves carved into the front side of a thick metal film was proposed to enhance the propagation of SPPs away from the array, enabling them to be unidirectionally launched from, and focused to, a localized point.
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Tilting a ground-state reactivity landscape by vibrational strong coupling
Anoop Thomas,Lucas Lethuillier-Karl,Kalaivanan Nagarajan,Robrecht M. A. Vergauwe,Jino George,Thibault Chervy,Atef Shalabney,Eloïse Devaux,Cyriaque Genet,Joseph Moran,Thomas W. Ebbesen +10 more
TL;DR: The reactivity of a compound bearing two possible silyl bond cleavage sites is studied as a function of VSC of three distinct vibrational modes in the dark, showing that VSC can indeed tilt the reactivity landscape to favor one product over the other.