O
Olivier J. F. Martin
Researcher at École Polytechnique Fédérale de Lausanne
Publications - 396
Citations - 18896
Olivier J. F. Martin is an academic researcher from École Polytechnique Fédérale de Lausanne. The author has contributed to research in topics: Plasmon & Nanophotonics. The author has an hindex of 61, co-authored 363 publications receiving 17289 citations. Previous affiliations of Olivier J. F. Martin include École Polytechnique & IBM.
Papers
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Theoretical atomic-force-microscopy study of adsorbed fullerene molecules
C. Girard,Xavier Bouju,Olivier J. F. Martin,Alain Dereux,C. Chavy,Hao Tang,Christian Joachim +6 more
TL;DR: Simulations of the atomic force between a thin probe tip and a set of adsorbed molecules is presented and the long-range part of the interaction is determined from a whole self-consistent procedure in which many-body effects are accounted for at all orders.
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Studying the different coupling regimes for a plasmonic particle in a plasmonic trap
TL;DR: In spite of the strong optical interaction between the particle and the antenna, the results show that the dipole approximation remains accurate for calculating forces on Rayleigh particles.
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Homogenization and Scattering Analysis of Second-Harmonic Generation in Nonlinear Metasurfaces
TL;DR: In this article, the generalized sheet transition conditions (GSTC) were used to model the electromagnetic responses of nonlinear metasurfaces and derived the generalized reflectionless and transmissionless conditions as well as the conditions of asymmetric reflection and transmission.
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A Low‐Temperature Annealing Method for Alloy Nanostructures and Metasurfaces: Unlocking a Novel Degree of Freedom
TL;DR: In this paper , a low-temperature alloying process is developed where the sample is heated at only 300 °C for 8 h followed by 30 min at 450 °C and Au-Ag nanostructures with a broad diversity of shapes, aspect ratios, and stoichiometries are fabricated.
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Extension of Lorentz reciprocity and Poynting theorems for spatially dispersive media with quadrupolar responses
TL;DR: In this article, a self-consistent extension of the Lorentz reciprocity theorem and the Poynting theorem for media possessing electric and magnetic dipolar and quadrupolar responses related to electric and magnetar fields and field gradients is provided.