the Coming Age of Metamaterials: Engineering Impossible at Atomic Scale
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Beschrijving
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Light bends the wrong way. Sound passes through a wall designed to stop it. A flat chip, thinner than a fingernail, focuses light better than a curved glass lens that took decades to grind. None of this is science fiction. It is the present reality of metamaterials, and it is only the beginning. In The Coming Age of Metamaterials, science writer Lavinia Rquefort-Mwezi takes readers on a journey through one of the most startling frontiers in modern physics: the deliberate engineering of materials that nature never made, with properties that physicists once assumed were simply impossible. Drawing on more than two decades of published research, Rquefort-Mwezi tells the story of how a Soviet physicist's ignored 1968 thought experiment became, half a century later, the foundation of an entirely new kind of technology. This is not a book about what might happen. It is a book about what is already happening in laboratories from Harvard to Karlsruhe to Hong Kong, and about why those results matter to medicine, architecture, energy, defense, and the future of computing. You will learn how photonic crystals, the same structures that make butterfly wings iridescent, can trap light so completely that it has nowhere in the universe to go. You will understand why a flat slab of a correctly designed material can focus light more perfectly than any curved lens ever could, and what that means for the cameras in the next generation of smartphones. You will follow the mathematics of invisibility from Veselago's original equations through to the 2006 demonstration at Duke University, where researchers actually bent microwave radiation around an object and watched the signal emerge on the other side undisturbed. Chapter by chapter, the book moves from theory to laboratory to product. Negative refraction. Transformation optics. Plasmonic resonance. Nanofabrication at the atomic scale. Acoustic cloaking. Seismic shields for buildings. Quantum metamaterials that can entangle light with matter. Metasurfaces that replace entire stacks of camera lenses with a chip the thickness of a human hair. Rquefort-Mwezi writes with a physicist's precision and a storyteller's timing. She does not talk down to the reader, and she does not hide behind jargon. The physics here is real, the research is cited, and the sense of wonder never lets up. By the time you finish the final page, you will understand why some of the world's most serious scientists believe that metamaterials represent the beginning of a new relationship between humanity and the physical laws of nature. Not breaking those laws. Doing something more interesting: exploiting them at a depth that nature, left to itself, never bothered to reach. This is the age of engineered matter. It has already begun.
Light bends the wrong way. Sound passes through a wall designed to stop it. A flat chip, thinner than a fingernail, focuses light better than a curved glass lens that took decades to grind. None of this is science fiction. It is the present reality of metamaterials, and it is only the beginning. In The Coming Age of Metamaterials, science writer Lavinia Rquefort-Mwezi takes readers on a journey through one of the most startling frontiers in modern physics: the deliberate engineering of materials that nature never made, with properties that physicists once assumed were simply impossible. Drawing on more than two decades of published research, Rquefort-Mwezi tells the story of how a Soviet physicist's ignored 1968 thought experiment became, half a century later, the foundation of an entirely new kind of technology. This is not a book about what might happen. It is a book about what is already happening in laboratories from Harvard to Karlsruhe to Hong Kong, and about why those results matter to medicine, architecture, energy, defense, and the future of computing. You will learn how photonic crystals, the same structures that make butterfly wings iridescent, can trap light so completely that it has nowhere in the universe to go. You will understand why a flat slab of a correctly designed material can focus light more perfectly than any curved lens ever could, and what that means for the cameras in the next generation of smartphones. You will follow the mathematics of invisibility from Veselago's original equations through to the 2006 demonstration at Duke University, where researchers actually bent microwave radiation around an object and watched the signal emerge on the other side undisturbed. Chapter by chapter, the book moves from theory to laboratory to product. Negative refraction. Transformation optics. Plasmonic resonance. Nanofabrication at the atomic scale. Acoustic cloaking. Seismic shields for buildings. Quantum metamaterials that can entangle light with matter. Metasurfaces that replace entire stacks of camera lenses with a chip the thickness of a human hair. Rquefort-Mwezi writes with a physicist's precision and a storyteller's timing. She does not talk down to the reader, and she does not hide behind jargon. The physics here is real, the research is cited, and the sense of wonder never lets up. By the time you finish the final page, you will understand why some of the world's most serious scientists believe that metamaterials represent the beginning of a new relationship between humanity and the physical laws of nature. Not breaking those laws. Doing something more interesting: exploiting them at a depth that nature, left to itself, never bothered to reach. This is the age of engineered matter. It has already begun.
AmazonPagina's: 137, Paperback, Independently published
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