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      Simple analytical expression for the peak-frequency shifts of plasmonic resonances for sensing

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          Abstract

          We derive a closed-form expression that accurately predicts the peak frequency-shift and broadening induced by tiny perturbations of plasmonic nanoresonators without critically relying on repeated electrodynamic simulations of the spectral response of nanoresonator for various locations, sizes or shapes of the perturbing objects. The force of the present approach, in comparison with other approaches of the same kind, is that the derivation is supported by a mathematical formalism based on a rigorous normalization of the resonance modes of nanoresonators consisting of lossy and dispersive materials. Accordingly, accurate predictions are obtained for a large range of nanoparticle shapes and sizes, used in various plasmonic nanosensors, even beyond the quasistatic limit. The expression gives quantitative insight, and combined with an open-source code, provides accurate and fast predictions that are ideally suited for preliminary designs or for interpretation of experimental data. It is also valid for photonic resonators with large mode volumes.

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          Author and article information

          Journal
          19 May 2015
          Article
          10.1021/acs.nanolett.5b00771
          25844813
          1505.04877
          d440614b-bc6a-46d5-8c24-d0a82394ce81

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

          History
          Custom metadata
          78-00
          Nano Lett. 15 (2015), 3439-3444
          24 pages, 9 figures, journal paper
          physics.optics

          Optical materials & Optics
          Optical materials & Optics

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