English

Towards optical sensing with hyperbolic metamaterials

Optics 2015-10-28 v1

Abstract

A possible means of optical sensing, based on a porous hyperbolic material which is infiltrated by a fluid containing an analyte to be sensed, was investigated theoretically. The sensing mechanism relies on the observation that extraordinary plane waves propagate in the infiltrated hyperbolic material only in directions enclosed by a cone aligned with the optic axis of the infiltrated hyperbolic material. The angle this cone subtends to the plane perpendicular to the optic axis is θc\theta_c. The sensitivity of θc\theta_c to changes in refractive index of the infiltrating fluid, namely nbn_b, was explored; also considered were the permittivity parameters and porosity of the hyperbolic material, as well as the shape and size of its pores. Sensitivity was gauged by the derivative dθc/dnbd \theta_c / d n_b. In parametric numerical studies, values of dθc/dnbd \theta_c / d n_b in excess of 500 degrees per refractive index unit were computed, depending upon the constitutive parameters of the porous hyperbolic material and infiltrating fluid, and the nature of the porosity. In particular, it was observed that exceeding large values of dθc/dnbd \theta_c / d n_b could be attained as the negative--valued eigenvalue of the infiltrated hyperbolic material approached zero.

Keywords

Cite

@article{arxiv.1505.01054,
  title  = {Towards optical sensing with hyperbolic metamaterials},
  author = {Tom G. Mackay},
  journal= {arXiv preprint arXiv:1505.01054},
  year   = {2015}
}
R2 v1 2026-06-22T09:28:28.876Z