New Journal of Physics (Jan 2018)

Active control of radiation beaming from Tamm nanostructures by optical microscopy

  • Fu Feng,
  • Clémentine Symonds,
  • Catherine Schwob,
  • Joël Bellessa,
  • Agnès Maître,
  • Jean-Paul Hugonin,
  • Laurent Coolen

DOI
https://doi.org/10.1088/1367-2630/aaaf93
Journal volume & issue
Vol. 20, no. 3
p. 033020

Abstract

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Active control of the radiation orientation (beaming) of a metallic antenna has been reported by various methods, where the antenna excitation position was tuned with a typical 50 nm precision by a near-field tip or an electron-beam. Here we use optical microscopy to excite and analyze the fluorescence of a layer of nanocrystals embedded in an optical Tamm state nanostructure (metallic disk on top of a Bragg mirror). We show that the radiation pattern can be controlled by changing the excitation spot on the disk with only micrometer precision, in a manner which can be well described by numerical simulations. A simplified analytical model suggests that the propagation length of the in-plane confined optical modes is a key parameter for beaming control.

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