Abstract
A refractive index (RI) sensor based on an asymmetric metal-cladding dielectric waveguide structure, in which an analyte is used as the guiding layer, is proposed in this report. The angular scanning attenuated total reflection spectra of the sensor and optical field distributions under waveguide mode resonance conditions were simulated, which confirmed that multiple waveguide modes can be used for sensing, and that different waveguide modes exist in different analyte RI ranges. The curves of both waveguide mode resonance angles and the sensitivity as a function of the analyte RI demonstrated that a wide sensing range can be achieved by combining waveguide modes of different orders. The proposed sensor could be applied to numerous fields, such as biological and chemical detection.
Highlights
The refractive index (RI) is a vital parameter describing the optical characteristics of a material and is directly related to its composition
Unlike the near-guidedwave SPR (NGWSPR) structure presented by Shalabney et al.,[20] we proposed an asymmetric metal-cladding dielectric waveguide (AMDW) structure for use in subwavelength lithography.[21,22,23,24,25]
All the results suggest that the AMDW structure proposed could be employed in wide-range RI sensors
Summary
The refractive index (RI) is a vital parameter describing the optical characteristics of a material and is directly related to its composition. We thoroughly investigated the properties of subwavelength lithography based on this kind of structure and noticed that there was a close relationship between the waveguide mode resonance and the RI of the dielectric waveguide. This finding confirms that the AMDW structure can be used as a type of RI sensor if the dips of the waveguide modes are used as sensing signals. We calculated the angular scanning ATR curves for different analyte RIs in this study to demonstrate the sensing properties of the AMDW structure. All the results suggest that the AMDW structure proposed could be employed in wide-range RI sensors
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