Enhancing Tamm Plasmon Sensor Performance using Nanostructured Gold Grating and Porous Materials - Archive ouverte HAL
Journal Articles IEEE Sensors Journal Year : 2024

Enhancing Tamm Plasmon Sensor Performance using Nanostructured Gold Grating and Porous Materials

Abstract

In this paper, we introduce a gas sensor concept consisting of a nanostructured gold grating coupled with a Distributed Bragg Reflector. This coupling makes it possible to obtain plasmonic Tamm states where excitation is possible at normal incidence and does not require the use of Kretschmann configuration. Through parameters optimization of the gold nanostructured grating, we achieved well-defined and localized Tamm resonances between the gold nanostructured grating and the Distributed Bragg Reflector composed of SiO2/Si3N4. To exploit the spatial confinement of the energy of the Tamm states in order to measure the change in refractive index, we propose three configurations in which we substitute the last nitride layer in the Bragg Reflector with porous materials. In the first configuration, we use a porous nitride portion with 30% porosity, producing sensitivity S = 170 nm/RIU and figure of merit FOM = 27.1 RIU−1. In the second configuration, we use a porous nitride layer with a porosity of 30% (S = 175 nm/RIU, FOM = 27.3 RIU−1). Finally, the third configuration adopts a 66% porous silicon layer (S = 268 nm/RIU, FOM = 43.6 RIU−1). These values show significant potential for sensing applications.
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Dates and versions

hal-04607032 , version 1 (10-06-2024)

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Cite

O. Haidar, Baptiste Mathmann, Yannick Dusch, Mohamed El Barghouti, Romain Viard, et al.. Enhancing Tamm Plasmon Sensor Performance using Nanostructured Gold Grating and Porous Materials. IEEE Sensors Journal, 2024, pp.1-1. ⟨10.1109/JSEN.2024.3399315⟩. ⟨hal-04607032⟩
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