Spectral Characterization of Mid-Infrared Bloch Surface Waves Excited on a Truncated 1D Photonic Crystal
Academic Article
Publication Date:
2020
abstract:
The many fundamental roto-vibrational resonances of chemical compounds result in strong absorption lines in the
mid-infrared region (? ~ 2-20 ?m). For this reason, mid-infrared spectroscopy plays a key role in label-free sensing, in particular, for
chemical recognition, but often lacks the required sensitivity to probe small numbers of molecules. In this work, we propose a
vibrational sensing scheme based on Bloch surface waves (BSWs) on 1D photonic crystals to increase the sensitivity of mid-infrared
sensors. We report on the design and deposition of CaF2/ZnS 1D photonic crystals. Moreover, we theoretically and experimentally
demonstrate the possibility to sustain narrow ?-polarized BSW modes together with broader ?-polarized modes in the range of 3-8
?m by means of a customized Fourier transform infrared spectroscopy setup. The multilayer stacks are deposited directly on CaF2
prisms, reducing the number of unnecessary interfaces when exciting in the Kretschmann-Raether configuration. Finally, we
compare the performance of mid-IR sensors based on surface plasmon polaritons with the BSW-based sensor. The figures of merit
found for BSWs in terms of confinement of the electromagnetic field and propagation length puts them as forefrontrunners for labelfree and polarization-dependent sensing devices.
mid-infrared region (? ~ 2-20 ?m). For this reason, mid-infrared spectroscopy plays a key role in label-free sensing, in particular, for
chemical recognition, but often lacks the required sensitivity to probe small numbers of molecules. In this work, we propose a
vibrational sensing scheme based on Bloch surface waves (BSWs) on 1D photonic crystals to increase the sensitivity of mid-infrared
sensors. We report on the design and deposition of CaF2/ZnS 1D photonic crystals. Moreover, we theoretically and experimentally
demonstrate the possibility to sustain narrow ?-polarized BSW modes together with broader ?-polarized modes in the range of 3-8
?m by means of a customized Fourier transform infrared spectroscopy setup. The multilayer stacks are deposited directly on CaF2
prisms, reducing the number of unnecessary interfaces when exciting in the Kretschmann-Raether configuration. Finally, we
compare the performance of mid-IR sensors based on surface plasmon polaritons with the BSW-based sensor. The figures of merit
found for BSWs in terms of confinement of the electromagnetic field and propagation length puts them as forefrontrunners for labelfree and polarization-dependent sensing devices.
Iris type:
01.01 Articolo in rivista
Keywords:
mid-Infrared; Bloch surface waves; spectroscopy; sensors; photonic crystals; FTIR
List of contributors:
Mattioli, Francesco; Notargiacomo, Andrea; Cibella, Sara; Pea, Marialilia
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