Title :
Complete Mode Structure Analysis of Tilted Bragg Grating Refractometers in Planar Waveguides Toward Absolute Index Measurement
Author :
Daly, Keith R. ; Holmes, Christopher ; Gates, James C. ; Smith, Peter G R ; D´Alessandro, Giampaolo
Author_Institution :
Sch. of Math., Univ. of Southampton, Southampton, UK
Abstract :
Tilted Bragg grating refractometers are ideal devices for sensing applications. They work by diffracting light from a confined core mode into a series of well-defined cladding modes that are sensitive to the refractive index of an adjacent fluid. Using the Cauchy integral method, we find the modes of a ridge waveguide refractometer. To gain good agreement with the experiment, the method requires us to take into account the dispersion and the 2-D geometry of the waveguide. The resulting modes are then used to predict the coupling dips in the reflection spectrum. Comparison with experimental measurements verifies the ability of this method to accurately determine the mode structure in the waveguide and, with minimal calibration, the refractive index of the adjacent fluid with error less than 2 ×10-4.
Keywords :
Bragg gratings; claddings; optical dispersion; optical planar waveguides; reflectivity; refractive index measurement; refractometers; ridge waveguides; 2D geometry; Cauchy integral method; absolute index measurement; cladding modes; complete mode structure analysis; confined core mode; coupling dips; light diffractiion; light dispersion; planar waveguides; reflection spectra; refractive index sensing; ridge waveguide refractometer; tilted Bragg grating refractometers; Bragg gratings; Equations; Indexes; Optical surface waves; Optical waveguides; Refractive index; Surface waves; Waveguides; gratings; plasmonics; sensors;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2011.2168515
