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Metamaterials Work Expands Capabilities for Myriad Applications

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ITHACA, N.Y., Aug. 11, 2021 — Researchers at Cornell University have proposed a method to modulate both the absorptive and refractive qualities of metamaterials in real time. Their findings present new opportunities to control — in both time and space — the propagation and scattering of waves for applications in various areas of wave physics and engineering. The theoretical work aims to expand the capabilities of metamaterials to absorb or refract electromagnetic waves. Previous research was limited to modifying either absorption or refraction, though the Monticone Research Group, headed by Francesco...Read full article

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    Published: August 2021
    Glossary
    absorption
    Absorption is the process by which a material takes in energy from electromagnetic radiation (such as light, heat, or sound) and converts it to other forms of energy, typically internal energy (such as heat). This process occurs when the energy of the incident radiation is transferred to the atoms or molecules of the absorbing material, causing them to increase in vibrational, rotational, or electronic energy levels. In different contexts, absorption can refer to: Physics and optics:...
    modulation
    In general, changes in one oscillation signal caused by another, such as amplitude or frequency modulation in radio which can be done mechanically or intrinsically with another signal. In optics the term generally is used as a synonym for contrast, particularly when applied to a series of parallel lines and spaces imaged by a lens, and is quantified by the equation: Modulation = (Imax – Imin)/ (Imax + Imin) where Imax and Imin are the maximum and minimum intensity levels of the image.
    Research & TechnologyMaterialsOpticsabsorptionmetamaterialswave dynamicscontroltheoreticalmodulationmodulatedFrancesco MonticoneCornell UniversityCornell University College of EngineeringMonticone Research GroupopticawavestemporalspatialAmericas

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