English

Plasmon-enhanced second harmonic sensing

Mesoscale and Nanoscale Physics 2017-11-16 v1

Abstract

It has been recently suggested that the nonlinear optical processes in plasmonic nanoantennas allow for a substantial boost in the sensitivity of plasmonic sensing platforms. Here we present a sensing device based on an array of non-centrosymmetric plasmonic nanoantennas featuring enhanced second harmonic generation (SHG) integrated in a microfluidic chip. We evaluate its sensitivity both in the linear and nonlinear regime using a figure of merit (FOM = (ΔI/I)/Δn(\Delta I/I)/\Delta n) that accounts for the relative change in the measured intensity, \textit{I}, against the variation of the environmental refractive index \textit{n}. While the signal-to-noise ratio achieved in both regimes allows the detection of a minimum refractive index variation Δnmin103\Delta n_{min} \approx 10^{-3}, the platform operation in the nonlinear regime features a sensitivity (i.e. the FOM) that is at least 3 times higher than the linear one. Thanks to the surface sensitivity of plasmon-enhanced SHG, our results show that the development of such SHG sensing platforms with sensitivity performances exceeding those of their linear counterparts is within reach.

Keywords

Cite

@article{arxiv.1711.05584,
  title  = {Plasmon-enhanced second harmonic sensing},
  author = {Lavinia Ghirardini and Anne-Laure Baudrion and Marco Monticelli and Daniela Petti and Paolo Biagioni and Lamberto Duò and Giovanni Pellegrini and Pierre-Michel Adam and Marco Finazzi and Michele Celebrano},
  journal= {arXiv preprint arXiv:1711.05584},
  year   = {2017}
}

Comments

19 Pages, 5 Figures

R2 v1 2026-06-22T22:46:51.170Z