Liberal Olleta, Íñigo

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https://academica-e.unavarra.es/handle/2454/49405

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Liberal Olleta

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Íñigo

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Ingeniería Eléctrica, Electrónica y de Comunicación

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ISC. Institute of Smart Cities

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0000-0003-1798-8513

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88733

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9467

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Author: Lezaun Capdevila, Carlos × Subject: Silicon carbide ×

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    PublicationOpen Access
    Perfect narrowband absorbers using simple lithography-free structures
    (IEEE, 2024-10-08) Lezaun Capdevila, Carlos; Navajas Hernández, David; Liberal Olleta, Íñigo; Beruete Díaz, Miguel; Ingeniería Eléctrica, Electrónica y de Comunicación; Ingeniaritza Elektrikoa, Elektronikoa eta Telekomunikazio Ingeniaritza; Institute of Smart Cities - ISC
    Light absorption is a key phenomenon for a variety of technologies [1]: radiative cooling, photovoltaics, sensing, communication and camouflaging are just a few examples. These applications demand scalable and compact devices that modulate their absorption spectra, usually engineered using cavities and/or periodic structures acting as resonators. Weak light matter interaction limits the absorption within ultra-compact devices, although epsilon-near-zero (ENZ) materials allows to greatly increase such interaction [2]. The lack of design standardization presents a big gap for designing absorbers. We present a thorough analysis of an arbitrary material on top of a PEC (perfect electric reflector) and a material separated by a spacer from the PEC. We overview the absorption phenomena for different permittivity regions, thicknesses, angles of incidence and polarization. This work helps standardize the design of these absorber configuration.
  • Thumbnail Image
    PublicationOpen Access
    Lithography-free perfect narrowband absorbers using simple layered structures
    (IEEE, 2024-10-08) Lezaun Capdevila, Carlos; Navajas Hernández, David; Liberal Olleta, Íñigo; Beruete Díaz, Miguel; Ingeniería Eléctrica, Electrónica y de Comunicación; Ingeniaritza Elektrikoa, Elektronikoa eta Telekomunikazio Ingeniaritza; Institute of Smart Cities - ISC
    Light absorbers are key components for multiple applications ranging from heat and energy management to communications and sensing. This work explores different complex permittivity combinations for material-reflector and material-spacer-reflector configurations, achieving perfect absorption under different permittivity regimes and thicknesses. Using silicon carbide, we discuss polarization and angle dependencies, and the potential of exploiting different permittivity regimes within a device for multi-band absorption. This work helps standardize absorber design and offer insights to engineer perfect absorbers for applications such as thermal emission, absorption, communication and sensing.