C
C. Rétif
Researcher at Fundamental Research on Matter Institute for Atomic and Molecular Physics
Publications - 7
Citations - 367
C. Rétif is an academic researcher from Fundamental Research on Matter Institute for Atomic and Molecular Physics. The author has contributed to research in topics: Surface plasmon & Extraordinary optical transmission. The author has an hindex of 6, co-authored 7 publications receiving 343 citations. Previous affiliations of C. Rétif include Utrecht University.
Papers
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Journal ArticleDOI
Template-induced growth of close-packed and non-close-packed colloidal crystals during solvent evaporation
Jacob P. Hoogenboom,C. Rétif,E. de Bres,A. K. van de Boer,A. K. van Langen-Suurling,J. Romijn,A. van Blaaderen +6 more
TL;DR: In this paper, the influence of the parameters that determine the surface topography of templates on colloidal crystal structure was investigated and the results indicated that this may be avoided when the direction of gravity with respect to the substrate is changed.
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Quasi-cylindrical wave contribution in experiments on extraordinary optical transmission
TL;DR: From the measured transmission spectra, microscopic scattering parameters are determined which allow us to show that quasi-cylindrical waves affect EOT only for high densities, when the hole spacing is roughly one wavelength.
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Box traps on an atom chip for one-dimensional quantum gases
TL;DR: In this paper, box-like axial potentials for ultracold gases on an atom chip have been proposed, and the box traps have been used for the characterization of one-dimensional quantum gases.
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Fabrication of magnetic atom chips based on FePt
Y. T. Xing,I. Barb,Rene Gerritsma,Robert J. C. Spreeuw,H. Luigjes,Q.F. Xiao,C. Rétif,J. B. Goedkoop +7 more
TL;DR: In this paper, the design and fabrication of novel all-magnetic atom chips for use in ultracold atom trapping was described and the considerations leading to the choice of nanocrystalline exchange coupled FePt as best material are discussed.
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Speckle correlation functions applied to surface plasmons
TL;DR: In this paper, the optical intensity transmitted through a random pattern of subwavelength holes in a metal film exhibits a speckle pattern and the variation of this pattern as a function of wavelength is studied.