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200 10$aSelf-Sufficient Habitat
210  1$aNew York City :$cActar D,$d2022.
210  4$d©2022.
215   $a1 online resource (305 pages)
311 08$aPrint version: Guallart, Vicente Self-Sufficient Habitat New York City : Actar D,c2022 9781940291734 
327   $aIntro -- INTRODUCTION -- SELF-SUFFICIENT AND INTER-ACTION -- ALIVE -- THE PRODUCTIVE CITY -- BACK TO THE FUTURE -- JURY'S MEMBERS -- WINNERS -- THEORIES AND STRATEGIES -- La Monumental is Vandalised -- Rewiring the Future -- Powering London 2015 -- Self-Sufficient Superstructures -- Digital Construct 1:1 -- Re.Habitat -- Art in City Life/Life Art in the City -- Self-Sufficient Habitat -- An Arkitecture -- The Matripoles -- Bio City Map of 11 Billion -- Swarm Urbanism -- Cyclical Architecture -- Self-Sufficient Parasite City -- Barrio 15 -- Nature-Culture -- K.O. Habitat -- SOCIAL AND COLLABORATIVE -- Interactice Hornád -- Agriculture Teaching: Al Mansoura -- Sanchinarro -- REstorative COmmunity -- The Lichen City -- Redevelopment of Leprosy Colony -- Self-Supportive Copp Districts -- Self-Sufficient Habitat_A parasitical Refuge -- OCP. Alc. -- Urban Play -- New Lochara. A Dialogue between Man and the (Super)Natural -- Upper City -- Producing City -- Highbury Fields -- Agri-net -- Sustainable Village: Fasayel, Palestine -- RE_ -- Tanneries Neighborhood -- The Nature Museum in the Ekaterinburg -- PARAMETRIC SYSTEMS -- A New Neighbourhood for Rio de Janeiro -- Poro(city) -- Open Cluster City -- SelfinSkin -- Programmable Habitats -- MBC -- Spam -- Copenhagen flooding -- Traffic Energy recycling -- Floating Cells -- Ordos -- Floating Responsive Agriculture -- Cluster-Shell -- Walking Clouds -- Anti-Gravity -- Urbs Florens_Flourishing City -- Strategic Intervention in Mexico City -- Immunorium -- BEHAVIOURAL TECHNOLOGY -- (S.I.S.T.E.M.A.) -- Emphatic Habitat -- Post Oil Architecture -- Dhaka City -- Kites -- Primavera City -- LESS -- Self-Sufficient Habitat/Biomimicry -- Self-Sufficient Habitat/Interactive facade -- The Breathing SeaShell -- BalloonFrastracture -- ECOrganic -- Water Ways -- Hong Kong CoGen -- ADAPTIVE AND REACTIVE.
327   $aHere After: The Material Processor -- Interactive Sponge -- Natto: Sensitive Houses -- A Day House -- Cortes Reef -- The Ark -- Urban [Add]apt -- Salt Geographies -- Moss on the Rocks -- Urban Farming -- Donosti Self-Sufficient Community -- Urban Bio Incubator -- Cliff Dwellings -- Agronautes -- 2030's Photosynthesis Habitat -- Cultivating Architecture -- The Ant Tribe -- DATA LANDSCAPES -- Recycle Valley -- Garbage Temporary Show -- Energy Iceberg -- San Bartolo Housing Strategy -- Re-Naturalize -- The Invisible City -- The Sharing Habitat -- Boom and Bust -- Inverse Moat -- Jastrzebie-Ruptawa Houses -- Coffee Plantation Habitat -- Adaptable Temperature Shell -- Habitable Membranes -- Harvesting Panama -- Sub Urban Infillers -- PARTICIPANTS ORIGINS -- PROJECT NAMES.
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200 10$aMetamaterials $ecritique and alternatives /$fBen A. Munk
210   $aHoboken, N.J. $cJohn Wiley$dc2009
215   $a1 online resource (209 p.)
300   $aDescription based upon print version of record.
311 08$a9780470377048 
311 08$a0470377046 
320   $aIncludes bibliographical references and index.
327   $aMETAMATERIALS; CONTENTS; Foreword; Preface; ACKNOWLEDGMENTS; 1 Why Periodic Structures Cannot Synthesize Negative Indices of Refraction; 1.1 Introduction; 1.1.1 Overview; 1.1.2 Background; 1.2 Current Assumptions Regarding Veselago's Medium; 1.2.1 Negative Index of Refraction; 1.2.2 Phase Advance when n(1) < 0; 1.2.3 Evanescent Waves Grow with Distance for n(1) < 0; 1.2.4 The Field and Phase Vectors Form a Left-Handed Triplet for n(1) < 0; 1.3 Fantastic Designs Could Be Realized if Veselago's Material Existed; 1.4 How Veselago's Medium Is Envisioned To Be Synthesized Using Periodic Structures
327   $a1.5 How Does a Periodic Structure Refract?1.5.1 Infinite Arrays; 1.5.2 What About Finite Arrays?; 1.6 On the Field Surrounding an Infinite Periodic Structure of Arbitrary Wire Elements Located in One or More Arrays; 1.6.1 Single Array of Elements with One Segment; 1.6.2 Single Array of Elements with Two Segments; 1.6.3 Single Array of Elements with an Arbitrary Number of Segments; 1.6.4 On Grating Lobes and Backward-Traveling Waves; 1.6.5 Two Arrays of Elements with an Arbitrary Number of Segments; 1.6.6 Can Arrays of Wires Ever Change the Direction of the Incident Field?
327   $a1.7 On Increasing Evanescent Waves: A Fatal Misconception1.8 Preliminary Conclusion: Synthesizing Veselago's Medium by a Periodic Structure Is Not Feasible; 1.9 On Transmission-Line Dispersion: Backward-Traveling Waves; 1.9.1 Transmission Lines; 1.9.2 Periodic Structures; 1.10 Regarding Veselago's Conclusion: Are There Deficiencies?; 1.10.1 Background; 1.10.2 Veselago's Argument for a Negative Index of Refraction; 1.10.3 Veselago's Flat Lens: Is It Really Realistic?; 1.11 Conclusions; 1.12 Common Misconceptions; 1.12.1 Artificial Dielectrics: Do They Really Refract?
327   $a1.12.2 Real Dielectrics: How Do They Refract?1.12.3 On the E- and H-Fields; 1.12.4 On Concentric Split-Ring Resonators; 1.12.5 What Would Veselago Have Asked if . . .; 1.12.6 On "Magic" Structures; References; 2 On Cloaks and Reactive Radomes; 2.1 Cloaks; 2.1.1 Concept; 2.1.2 Prior Art; 2.1.3 Alternative Explanation; 2.1.4 Alternative Design; 2.1.5 What Can You Really Expect from a Cloak?; 2.2 Reactive Radomes; 2.2.1 Infinite Planar Array with and Without Reactive Radome; 2.2.2 Line Arrays and Single Elements; 2.3 Common Misconceptions; 2.3.1 Misinterpretation of Calculated Results
327   $a2.3.2 Ultimately: What Power Can You Expect from a Short Dipole Encapsulated in a Small Spherical Radome?2.4 Concluding Remarks; References; 3 Absorbers with Windows; 3.1 Introduction; 3.2 Statement of the Problem; 3.3 Concept; 3.4 Conceptual Designs; 3.5 Extension to Arbitrary Polarization; 3.6 The High-Frequency Band; 3.7 Complete Conceptual Rasorber Design; 3.8 Practical Designs; 3.9 Other Applications of Traps: Multiband Arrays; Reference; 4 On Designing Absorbers for an Oblique Angle of Incidence; 4.1 Lagarkov's and Classical Designs; 4.2 Salisbury Screen; 4.3 Scan Compensation
327   $a4.4 Frequency Compensation
330   $aA Convincing and Controversial Alternative Explanation of Metamaterials with a Negative Index of Refraction In a book that will generate both support and controversy, one of the world's foremost authorities on periodic structures addresses several of the current fashions in antenna design-most specifically, the popular subject of double negative metamaterials. Professor Munk provides a comprehensive theoretical electromagnetic investigation of the issues and concludes that many of the phenomena claimed by researchers may be impossible. While denying the existence of negative refractio
606   $aMetamaterials
606   $aAntennas (Electronics)$xMaterials
606   $aElectromagnetism
606   $aRadio wave propagation$xMathematical models
606   $aAntennas (Electronics)$xExperiments
606   $aNegative refraction
606   $aNegative refractive index
615  0$aMetamaterials.
615  0$aAntennas (Electronics)$xMaterials.
615  0$aElectromagnetism.
615  0$aRadio wave propagation$xMathematical models.
615  0$aAntennas (Electronics)$xExperiments.
615  0$aNegative refraction.
615  0$aNegative refractive index.
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