Magnetophotonics for sensing and magnetometry toward industrial applications

Magnetic nanostructures sustaining different types of optical modes have been used for magnetometry and label-free ultrasensitive refractive index probing, where the main challenge is the realization of compact devices that are able to transfer this technology from research laboratories to smart industry. This Perspective discusses the state-of-the-art and emerging trends in realizing innovative sensors containing new architectures and materials exploiting the unique ability to actively manipulate their optical properties using an externally applied magnetic field. In addition to the well-established use of propagating and localized plasmonic fields, in the so-called magnetoplasmonics, we identified a new potential of the all-dielectric platforms for sensing to overcome losses inherent to metallic components. In describing recent advances, emphasis is placed on several feasible industrial applications, trying to give our vision on the future of this promising field of research merging optics, magnetism, and nanotechnology

3D-Printed Quasi-Cylindrical Bragg Reflector to Boost the Gain and Directivity of cm- and mm-Wave Antennas

We demonstrate a concept for a large enhancement of the directivity and gain of readily available cm- and mm-wave antennas, i.e., without altering any property of the antenna design. Our concept exploits the high reflectivity of a Bragg reflector composed of three bilayers made of transparent materials. The cavity has a triangular aperture in order to resemble the idea of a horn-like, highly directive antenna. Importantly, we report gain enhancements of more than 400% in relation to the gain of the antenna without the Bragg structure, accompanied by a highly directive radiation pattern. The proposed structure is cost-effective and easy to fabricate with 3D-printing. Our results are presented for frequencies within the conventional WiFi frequencies, based on IEEE 802.11 standards, thus, enabling easily implementation by non-experts and needing only to be placed around the antenna to improve the directivity and gain of the signal

New trends in plasmonic (bio)sensing

Abstract The strong enhancement and localization of electromagnetic field in plasmonic systems have found applications in many areas, which include sensing and biosensing. In this paper, an overview will be provided of the use of plasmonic phenomena in sensors and biosensors with emphasis on two main topics. The first is related to possible ways to enhance the performance of sensors and biosensors based on surface plasmon resonance (SPR), where examples are given of functionalized magnetic nanoparticles, magnetoplasmonic effects and use of metamaterials for SPR sensing. The other topic is focused on surface-enhanced Raman scattering (SERS) for sensing, for which uniform, flexible, and reproducible SERS substrates have been produced. With such recent developments, there is the prospect of improving sensitivity and lowering the limit of detection in order to overcome the limitations inherent in ultrasensitive detection of chemical and biological analytes, especially at single molecule levels

New trends in plasmonic (bio)sensing

<div><p>Abstract The strong enhancement and localization of electromagnetic field in plasmonic systems have found applications in many areas, which include sensing and biosensing. In this paper, an overview will be provided of the use of plasmonic phenomena in sensors and biosensors with emphasis on two main topics. The first is related to possible ways to enhance the performance of sensors and biosensors based on surface plasmon resonance (SPR), where examples are given of functionalized magnetic nanoparticles, magnetoplasmonic effects and use of metamaterials for SPR sensing. The other topic is focused on surface-enhanced Raman scattering (SERS) for sensing, for which uniform, flexible, and reproducible SERS substrates have been produced. With such recent developments, there is the prospect of improving sensitivity and lowering the limit of detection in order to overcome the limitations inherent in ultrasensitive detection of chemical and biological analytes, especially at single molecule levels.</p></div

Octubre y el derecho a la resistencia : revuelta popular y neoliberalismo autoritario en Ecuador

Entre defensivo y anticipatorio, el Paro Nacional repuso al pueblo en el campo político. La vía neoliberal, abierta sorpresivamente desde 2017, había conseguido asentar cierta idea del Estado austero como única forma de reparación social y ética ante los "excesos del dispendioso y corrupto gobierno populista" (sic.). En su progresiva implantación, sin embargo, la austeridad combinó el desfinanciamiento de sectores de provisión de servicios públicos masivos, política de precarización del trabajo y recurrentes exenciones tributarias para grandes grupos económicos. Dicho combo de políticas fue ratificado con el Decreto 883. Quienes comparten más o menos similares experiencias de injusticia o entornos de privación como efecto de tales políticas se encontraron en Octubre

Avances de la Investigación en Ingeniería

El texto está conformado por 31 capítulos, agrupados en 5 grandes áreas temáticas. En la primera parte se encuentran los trabajos relacionados con el tema de los Recursos Hidráulicos; en la segunda parte se tratan temas relacionados con la Planificación y Gestión del Territorio; la tercera parte está relacionada con el Manejo Integral de los Recursos Agua, Aire y Suelo; la cuarta parte incluye la Investigación Aplicada a la Ingeniería de Sistemas, y la última parte comprende la Investigación Aplicada a la Ingeniería Civil