Metamaterials

Any substance designed to have a quality that isn't present in naturally existing materials is a metamaterial. They are constructed using multi-element assemblies comprised of composite materials like metals and polymers. On sizes that are smaller than the wavelengths of the phenomena they affect, the materials are often organised in repeating patterns. The qualities of metamaterials come from their newly created structures rather than the features of the basic materials. They have smart qualities that allow them to manipulate electromagnetic waves by blocking, absorbing, amplifying, or bending waves to obtain results that are superior to those attainable with traditional materials because of their exact form, geometry, size, orientation, and arrangement. In a way not seen in bulk materials, electromagnetic radiation or sound waves can be affected by properly engineered metamaterials. There has been a lot of study done on materials that have a negative index of refraction at specific wavelengths. These substances are referred to as negative-index metamaterials. Metamaterials have a wide range of potential uses, including lenses for high-gain antennas, crowd control, medical devices, remote aerospace applications, sensor detection and infrastructure monitoring, smart solar power management, crowd control, radomes, high-frequency battlefield communication, and even earthquake-shielding for buildings. Super-lenses might be made using metamaterials. Such a lens can enable imaging below the diffraction limit, which is the lowest resolution d=/(2NA) that conventional lenses are capable of.