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010   $a9783031600159$b(electronic bk.)
010   $z9783031600142
024 7 $a10.1007/978-3-031-60015-9
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101 0 $aeng
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181   $ctxt$2rdacontent
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200 10$aAcoustic Metamaterials $eAbsorption, Cloaking, Imaging, Time-Modulated Media, and Topological Crystals /$fedited by Richard Craster, Sébastien Guenneau
205   $a2nd ed. 2024.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Springer,$d2024.
215   $a1 online resource (0 pages)
225 1 $aSpringer Series in Materials Science,$x2196-2812 ;$v345
311 08$aPrint version: Craster, Richard Acoustic Metamaterials Cham : Springer,c2025 9783031600142 
327   $a1 Fundamentals of Acoustic Metamaterials -- 2 Locally Resonant Structures for Low Frequency Surface Acoustic Band Gap Applications -- 3 Band-Gap Properties of Prestressed Structures -- 4 Ultrasound Transmission Through Periodically Perforated Plates -- 5 Novel Ultrasound Imaging Applications -- 6 Subwavelength Focussing in Metamaterials Using Far Field Time Reversal -- 7 Anisotropic Metamaterials for Transformation Acoustics and Imaging -- 8 Transformation Acoustics -- 9 Acoustic Cloaking via Homogenization -- 10 Acoustic Cloaking with Plasmonic Shells -- 11 Cloaking Liquid Surface Waves and Plasmon Polaritons -- 12 Transformation Elastodynamics and Active Exterior Acoustic Cloaking -- 13 Experimental Acoustics and Metasurfaces -- 14 Resonators atop Surfaces -- 15 Elastic Metamaterials.
330   $aThe revised edition of this book offers an expanded review of acoustic metamaterials; novel materials which can manipulate sound waves, surface Rayleigh waves and water waves, in surprising ways, which include collimation, focusing, negative refraction, passive and active cloaking, sonic screening and extraordinary transmission. It covers both experimental and theoretical aspects of acoustic and elastic waves propagating in structured composites, with a focus on effective properties associated with negative refraction, lensing and cloaking. Updated chapters cover filtering effects, extraordinary transmission, sub-wavelength imaging via tomography or time-reversal techniques, cloaking via transformation acoustics, elastodynamics, and acoustic scattering cancellation. For this revised edition, six new chapters have been introduced to reflect recent developments in experimental acoustics and metasurfaces including acoustic impedance gratings and mirror symmetric metamaterials, phononic subsurfaces, time-modulated and topological crystals. The latter two are illustrated by simple Python program examples. The broad scope gives the reader an overview of the state of the art in acoustic metamaterials research and an indication of future directions and applications. It will serve as a solid introduction to the field for advanced students and researchers in physics, applied mathematics and mechanical engineering, and a valuable reference for those working in metamaterials and related areas.and researchers in physics, applied mathematics and mechanical engineering, and a valuable reference for those working in metamaterials and related areas.
410  0$aSpringer Series in Materials Science,$x2196-2812 ;$v345
606   $aAcoustics
606   $aAcoustical engineering
606   $aCeramic materials
606   $aMechanics
606   $aAcoustics
606   $aEngineering Acoustics
606   $aCeramics
606   $aClassical Mechanics
615  0$aAcoustics.
615  0$aAcoustical engineering.
615  0$aCeramic materials.
615  0$aMechanics.
615 14$aAcoustics.
615 24$aEngineering Acoustics.
615 24$aCeramics.
615 24$aClassical Mechanics.
676   $a534
700   $aCraster$b Richard$01775379
701   $aGuenneau$b Sébastien$01759586
801  0$bMiAaPQ
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912   $a9910908373403321
996   $aAcoustic Metamaterials$94289964
997   $aUNINA