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Biblioteca

MARC Lista (tabellare)
NRSC '2001 : proceedings of the Eighteenth National Radio Science Conference : Mansoura, Egypt, March 27-29, 2001 / / Institute of Electrical and Electronics Engineers, Academy of Scientific Research and Technology, National Radio Science Committee
NRSC '2001 : proceedings of the Eighteenth National Radio Science Conference : Mansoura, Egypt, March 27-29, 2001 / / Institute of Electrical and Electronics Engineers, Academy of Scientific Research and Technology, National Radio Science Committee
Pubbl/distr/stampa Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 2001
Descrizione fisica 1 online resource (665 pages)
Disciplina 621.384
Soggetto topico Radio
Electromagnetic waves
Signal theory (Telecommunication)
Mobile communication systems
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-996206733403316
Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 2001
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
NRSC '98 : proceedings of the Fifteenth National Radio Science Conference : Cairo, Egypt, February 24-26, 1998 / / Academy of Scientific Research and Technology, National Radio Science Committee
NRSC '98 : proceedings of the Fifteenth National Radio Science Conference : Cairo, Egypt, February 24-26, 1998 / / Academy of Scientific Research and Technology, National Radio Science Committee
Pubbl/distr/stampa Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 1998
Descrizione fisica 1 online resource (441 pages)
Disciplina 621.382
Soggetto topico Signal theory (Telecommunication)
Electromagnetic waves
Radio
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-996199635303316
Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 1998
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
NRSC '99 : proceedings of the Sixteenth National Radio Science Conference : Faculty of Engineering, Ain Shams University, Cairo, Egypt, Feb. 23-25, 1999 / / National Radio Science Committee, Academy of Scientific Research and Technology
NRSC '99 : proceedings of the Sixteenth National Radio Science Conference : Faculty of Engineering, Ain Shams University, Cairo, Egypt, Feb. 23-25, 1999 / / National Radio Science Committee, Academy of Scientific Research and Technology
Pubbl/distr/stampa Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 1999
Descrizione fisica 1 online resource (864 pages)
Disciplina 621.384
Soggetto topico Radio
Electromagnetic waves
Moblie communication systems
Signal theory (Telecommunication)
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-996199955203316
Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 1999
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
NRSC 2004 : proceedings of the twenty-first National Radio Science Conference, 2004 : 16-18 March 2004
NRSC 2004 : proceedings of the twenty-first National Radio Science Conference, 2004 : 16-18 March 2004
Pubbl/distr/stampa New York : , : IEEE, , 2004
Descrizione fisica 1 online resource (185 pages)
Soggetto topico Radio
Electromagnetic waves
Signal theory (Telecommunication)
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-996206364603316
New York : , : IEEE, , 2004
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
NRSC 2005 : proceedings of the twenty-second National Radio Science Conference, 2005 : March 15-17, 2005
NRSC 2005 : proceedings of the twenty-second National Radio Science Conference, 2005 : March 15-17, 2005
Pubbl/distr/stampa New York : , : IEEE, , 2005
Descrizione fisica 1 online resource (478 pages)
Soggetto topico Radio
Electromagnetic waves
Signal theory (Telecommunication)
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-996217253603316
New York : , : IEEE, , 2005
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Periodic structures : mode-matching approach and applications in electromagnetic engineering / / Ruey-Bing (Raybeam) Hwang
Periodic structures : mode-matching approach and applications in electromagnetic engineering / / Ruey-Bing (Raybeam) Hwang
Autore Hwang Ruey-Bing
Edizione [1st edition]
Pubbl/distr/stampa [Hoboken, New Jersey] : , : John Wiley & Sons Inc., , 2013
Descrizione fisica 1 online resource (313 p.)
Disciplina 621.3
Soggetto topico Electric filters
Optoelectronic devices
Wave guides
Antennas (Electronics)
Photonic crystals
Crystal lattices - Electric properties
Electromagnetic waves
Soggetto genere / forma Electronic books.
ISBN 1-283-64564-5
1-118-18805-5
1-118-18806-3
Classificazione SCI022000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Preface ix -- 1 Introduction 1 -- 1.1 Historical Perspective on the Research in Periodic Structures 1 -- 1.2 From 1D Periodic Stratified Medium to 3D Photonic Crystals: An Overview of this Book 3 -- 1.2.1 Chapter 2: Wave Propagation in Multiple Dielectric Layers 3 -- 1.2.2 Chapter 3: One-Dimensional Periodic Medium 4 -- 1.2.3 Chapter 4: Two- and Three-Dimensional Periodic Structures 6 -- 1.2.4 Chapter 5: Introducing Defects into Periodic Structures 9 -- 1.2.5 Chapter 6: Periodic Impedance Surface 11 -- 1.2.6 Chapter 7: Exotic Dielectrics Made of Periodic Structures 13 -- References 14 -- Further Readings 15 -- 2 Wave Propagation in Multiple Dielectric Layers 17 -- 2.1 Plane-Wave Solutions in a Uniform Dielectric Medium 17 -- 2.2 Transmission-Line Network Representation of a Dielectric Layer of Finite Thickness 21 -- 2.2.1 Wave Propagating in Regular and Exotic Mediums 25 -- 2.3 Scattering Characteristics of Plane Wave by Multiple Dielectric Layers 28 -- 2.3.1 Recursive-Impedance Method 30 -- 2.3.2 Transfer-Matrix Method 32 -- 2.3.3 Scattering-Matrix Method 37 -- 2.4 Transverse Resonance Technique for Determining the Guiding Characteristics of Waves in Multiple Dielectric Layers 45 -- 2.4.1 Transverse Resonance Technique 45 -- 2.4.2 Will Surface Waves be Supported in a Single Interface Environment? 47 -- 2.4.3 Single Dielectric Layer Backed with a PEC or PMC 49 -- 2.4.4 Mode Dispersion Relation of a Closed Structure Consisting of Dielectric Layers 53 -- Appendix: Dyadic Definition and Properties 61 -- References 62 -- Further Reading 63 -- 3 One-Dimensional Periodic Medium 65 -- 3.1 Bloch-Floquet Theorem 65 -- 3.2 Eigenwave in a 1D Holographic Grating 66 -- 3.2.1 Two Space-Harmonic Approximation 68 -- 3.2.2 Single Interface between a Semi-infinite Uniform and a 1D Periodic Medium 76 -- 3.3 Eigenwave in 1D Dielectric Gratings: Modal Transmission-Line Approach 81 -- 3.3.1 In-Plane Incidence: ky =0 88 -- 3.3.2 Out-of-Plane Incidence: ky / = 0 89 -- 3.3.3 Eigenwave in a Two-Tone Periodic Medium 94.
3.3.4 Sturm-Liouville Differential Equation with Periodic Boundary Condition 96 -- 3.4 Eigenwave in a 1D Metallic Periodic Medium 98 -- 3.4.1 Generalized Scattering Matrix at the Interface between a 1D Metallic Periodic Medium and Uniform Medium 99 -- 3.5 Hybrid-Mode Analysis of a 1D Dielectric Grating: Fourier-Modal Approach 102 -- 3.6 Input-Output Relation of a 1D Periodic Medium of Finite Thickness 108 -- 3.7 Scattering Characteristics of a Grating Consisting of Multiple 1D Periodic Layers 111 -- 3.7.1 Building-Block Approach 111 -- 3.7.2 Scattering Analysis of 1D Diffraction Gratings 112 -- 3.8 Guiding Characteristics of Waveguides Consisting of Multiple 1D Periodic Layers 119 -- 3.8.1 Transverse Resonance Technique 119 -- 3.8.2 Dispersion Relation of a 1D Grating Waveguide 119 -- References 129 -- Further Readings 130 -- 4 Two- and Three-Dimensional Periodic Structures 131 -- 4.1 Modal Transmission-Line Approach for a 2D Periodic Metallic Medium: In-Plane Propagation 131 -- 4.1.1 Generalized Scattering Matrix at the Interface between a 1D Periodic Metallic Medium and Uniform Medium 133 -- 4.1.2 Periodic Boundary Condition on the Unit Cell along the y-axis 137 -- 4.1.3 A Simple Graphical Method 138 -- 4.1.4 Phase Relation: The Relationship among kx, ky, and ko 138 -- 4.1.5 Dispersion Relation: The Relationship between ko and kx (or ky) 143 -- 4.1.6 Brillouin Zone and Band Structure 146 -- 4.2 Modal Transmission Line Approach for a 2D Periodic Dielectric Medium: In-Plane Propagation 152 -- 4.2.1 Input-Output Relation at the Interface: Generalized Scattering Matrix Representation 156 -- 4.2.2 Brillouin Diagram and Phase Relation 158 -- 4.3 Double Fourier-Modal Approach for a 2D Dielectric Periodic Structure: Out-of-Plane Propagation 166 -- 4.3.1 Scattering Analysis of a 2D Grating: Out-of-Plane Propagation 171 -- 4.4 Three-Dimensional Periodic Structures 172 -- 4.4.1 Scattering Analysis of a 3D Periodic Structure 174 -- 4.4.2 Eigenwave Analysis of a 3D Periodic Medium 180.
Appendix: Closed-Form Solution of εpq,mn and μpq,mn 189 -- References 190 -- 5 Introducing Defects into Periodic Structures 191 -- 5.1 A Parallel-Plane Waveguide having a Pair of 1D Semi-Infinite Periodic Structures as its Side Walls 191 -- 5.1.1 Bloch Impedance 192 -- 5.1.2 Surface States Supported at the Interface of a Semi-Infinite 1D Periodic Structure 193 -- 5.1.3 A Semi-Infinite 1D Periodic Structure Consisting of Symmetric Dielectric Waveguides 200 -- 5.2 Dispersion Relation of a Parallel-Plane Waveguide with Semi-Infinite 1D Periodic Structures as Waveguide Side Walls 203 -- 5.2.1 Numerical Example 204 -- 5.3 A Parallel-Plane Waveguide with 2D Dielectric Periodic Structures as its Side Walls 208 -- 5.3.1 Method of Mathematical Analysis 211 -- 5.3.2 Dispersion Relation of a Channel with a Pair of 2D Periodic Structures as its Waveguide Side Walls 214 -- 5.4 Scattering Characteristics of a Periodic Structure with Defects 223 -- 5.4.1 Fabry-Perot Etalon 229 -- 5.4.2 The Correlation between the Scattering and Guiding Characteristics 231 -- 5.5 A Parallel-Plane Waveguide with 2D Metallic Periodic Structures as its Side Walls 236 -- 5.6 Other Applications in Microwave Engineering 240 -- References 243 -- 6 Periodic Impedance Surface 245 -- 6.1 Scattering Characteristics of Plane Wave by a 1D Periodic Structure Consisting of a Cavities Array 246 -- 6.1.1 An AMC Surface Made of Corrugated Metal Surface with Quarter-Wavelength Depth 256 -- 6.2 Periodic Impedance Surface Approach (PISA) 264 -- 6.3 Scattering of Plane Wave by 1D Periodic Impedance Surface: Non-Principal Plane Propagation 268 -- 6.3.1 Guiding Characteristics of Waves Supported by a 1D Periodic Impedance Surface 277 -- 6.4 Scattering of Plane Wave by a Dyadic 2D Periodic Impedance Surface 277 -- References 280 -- 7 Exotic Dielectrics Made of Periodic Structures 283 -- 7.1 Synthetic Dielectrics Using a 2D Dielectric Columns Array 283 -- 7.1.1 Description of the Example 284 -- 7.1.2 Phase-Relation Diagram of a Uniform Dielectric Medium 285.
7.2 Refractive Index of a 2D Periodic Medium 287 -- 7.2.1 Conclusion 291 -- 7.3 An Artificial Dielectric Made of 1D Periodic Dielectric Layers 292 -- 7.3.1 Effective Refractive Index of the 1D Dielectric Periodic Medium 293 -- 7.3.2 Effective Wave-Impedance of the 1D Dielectric Periodic Medium 293 -- 7.4 Conclusion 295 -- References 295 -- Index 297.
Record Nr. UNISA-996205670003316
Hwang Ruey-Bing  
[Hoboken, New Jersey] : , : John Wiley & Sons Inc., , 2013
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Periodic structures : mode-matching approach and applications in electromagnetic engineering / / Ruey-Bing (Raybeam) Hwang
Periodic structures : mode-matching approach and applications in electromagnetic engineering / / Ruey-Bing (Raybeam) Hwang
Autore Hwang Ruey-Bing
Edizione [1st edition]
Pubbl/distr/stampa [Hoboken, New Jersey] : , : John Wiley & Sons Inc., , 2013
Descrizione fisica 1 online resource (313 p.)
Disciplina 621.3
Soggetto topico Electric filters
Optoelectronic devices
Wave guides
Antennas (Electronics)
Photonic crystals
Crystal lattices - Electric properties
Electromagnetic waves
ISBN 1-283-64564-5
1-118-18805-5
1-118-18806-3
Classificazione SCI022000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Preface ix -- 1 Introduction 1 -- 1.1 Historical Perspective on the Research in Periodic Structures 1 -- 1.2 From 1D Periodic Stratified Medium to 3D Photonic Crystals: An Overview of this Book 3 -- 1.2.1 Chapter 2: Wave Propagation in Multiple Dielectric Layers 3 -- 1.2.2 Chapter 3: One-Dimensional Periodic Medium 4 -- 1.2.3 Chapter 4: Two- and Three-Dimensional Periodic Structures 6 -- 1.2.4 Chapter 5: Introducing Defects into Periodic Structures 9 -- 1.2.5 Chapter 6: Periodic Impedance Surface 11 -- 1.2.6 Chapter 7: Exotic Dielectrics Made of Periodic Structures 13 -- References 14 -- Further Readings 15 -- 2 Wave Propagation in Multiple Dielectric Layers 17 -- 2.1 Plane-Wave Solutions in a Uniform Dielectric Medium 17 -- 2.2 Transmission-Line Network Representation of a Dielectric Layer of Finite Thickness 21 -- 2.2.1 Wave Propagating in Regular and Exotic Mediums 25 -- 2.3 Scattering Characteristics of Plane Wave by Multiple Dielectric Layers 28 -- 2.3.1 Recursive-Impedance Method 30 -- 2.3.2 Transfer-Matrix Method 32 -- 2.3.3 Scattering-Matrix Method 37 -- 2.4 Transverse Resonance Technique for Determining the Guiding Characteristics of Waves in Multiple Dielectric Layers 45 -- 2.4.1 Transverse Resonance Technique 45 -- 2.4.2 Will Surface Waves be Supported in a Single Interface Environment? 47 -- 2.4.3 Single Dielectric Layer Backed with a PEC or PMC 49 -- 2.4.4 Mode Dispersion Relation of a Closed Structure Consisting of Dielectric Layers 53 -- Appendix: Dyadic Definition and Properties 61 -- References 62 -- Further Reading 63 -- 3 One-Dimensional Periodic Medium 65 -- 3.1 Bloch-Floquet Theorem 65 -- 3.2 Eigenwave in a 1D Holographic Grating 66 -- 3.2.1 Two Space-Harmonic Approximation 68 -- 3.2.2 Single Interface between a Semi-infinite Uniform and a 1D Periodic Medium 76 -- 3.3 Eigenwave in 1D Dielectric Gratings: Modal Transmission-Line Approach 81 -- 3.3.1 In-Plane Incidence: ky =0 88 -- 3.3.2 Out-of-Plane Incidence: ky / = 0 89 -- 3.3.3 Eigenwave in a Two-Tone Periodic Medium 94.
3.3.4 Sturm-Liouville Differential Equation with Periodic Boundary Condition 96 -- 3.4 Eigenwave in a 1D Metallic Periodic Medium 98 -- 3.4.1 Generalized Scattering Matrix at the Interface between a 1D Metallic Periodic Medium and Uniform Medium 99 -- 3.5 Hybrid-Mode Analysis of a 1D Dielectric Grating: Fourier-Modal Approach 102 -- 3.6 Input-Output Relation of a 1D Periodic Medium of Finite Thickness 108 -- 3.7 Scattering Characteristics of a Grating Consisting of Multiple 1D Periodic Layers 111 -- 3.7.1 Building-Block Approach 111 -- 3.7.2 Scattering Analysis of 1D Diffraction Gratings 112 -- 3.8 Guiding Characteristics of Waveguides Consisting of Multiple 1D Periodic Layers 119 -- 3.8.1 Transverse Resonance Technique 119 -- 3.8.2 Dispersion Relation of a 1D Grating Waveguide 119 -- References 129 -- Further Readings 130 -- 4 Two- and Three-Dimensional Periodic Structures 131 -- 4.1 Modal Transmission-Line Approach for a 2D Periodic Metallic Medium: In-Plane Propagation 131 -- 4.1.1 Generalized Scattering Matrix at the Interface between a 1D Periodic Metallic Medium and Uniform Medium 133 -- 4.1.2 Periodic Boundary Condition on the Unit Cell along the y-axis 137 -- 4.1.3 A Simple Graphical Method 138 -- 4.1.4 Phase Relation: The Relationship among kx, ky, and ko 138 -- 4.1.5 Dispersion Relation: The Relationship between ko and kx (or ky) 143 -- 4.1.6 Brillouin Zone and Band Structure 146 -- 4.2 Modal Transmission Line Approach for a 2D Periodic Dielectric Medium: In-Plane Propagation 152 -- 4.2.1 Input-Output Relation at the Interface: Generalized Scattering Matrix Representation 156 -- 4.2.2 Brillouin Diagram and Phase Relation 158 -- 4.3 Double Fourier-Modal Approach for a 2D Dielectric Periodic Structure: Out-of-Plane Propagation 166 -- 4.3.1 Scattering Analysis of a 2D Grating: Out-of-Plane Propagation 171 -- 4.4 Three-Dimensional Periodic Structures 172 -- 4.4.1 Scattering Analysis of a 3D Periodic Structure 174 -- 4.4.2 Eigenwave Analysis of a 3D Periodic Medium 180.
Appendix: Closed-Form Solution of εpq,mn and μpq,mn 189 -- References 190 -- 5 Introducing Defects into Periodic Structures 191 -- 5.1 A Parallel-Plane Waveguide having a Pair of 1D Semi-Infinite Periodic Structures as its Side Walls 191 -- 5.1.1 Bloch Impedance 192 -- 5.1.2 Surface States Supported at the Interface of a Semi-Infinite 1D Periodic Structure 193 -- 5.1.3 A Semi-Infinite 1D Periodic Structure Consisting of Symmetric Dielectric Waveguides 200 -- 5.2 Dispersion Relation of a Parallel-Plane Waveguide with Semi-Infinite 1D Periodic Structures as Waveguide Side Walls 203 -- 5.2.1 Numerical Example 204 -- 5.3 A Parallel-Plane Waveguide with 2D Dielectric Periodic Structures as its Side Walls 208 -- 5.3.1 Method of Mathematical Analysis 211 -- 5.3.2 Dispersion Relation of a Channel with a Pair of 2D Periodic Structures as its Waveguide Side Walls 214 -- 5.4 Scattering Characteristics of a Periodic Structure with Defects 223 -- 5.4.1 Fabry-Perot Etalon 229 -- 5.4.2 The Correlation between the Scattering and Guiding Characteristics 231 -- 5.5 A Parallel-Plane Waveguide with 2D Metallic Periodic Structures as its Side Walls 236 -- 5.6 Other Applications in Microwave Engineering 240 -- References 243 -- 6 Periodic Impedance Surface 245 -- 6.1 Scattering Characteristics of Plane Wave by a 1D Periodic Structure Consisting of a Cavities Array 246 -- 6.1.1 An AMC Surface Made of Corrugated Metal Surface with Quarter-Wavelength Depth 256 -- 6.2 Periodic Impedance Surface Approach (PISA) 264 -- 6.3 Scattering of Plane Wave by 1D Periodic Impedance Surface: Non-Principal Plane Propagation 268 -- 6.3.1 Guiding Characteristics of Waves Supported by a 1D Periodic Impedance Surface 277 -- 6.4 Scattering of Plane Wave by a Dyadic 2D Periodic Impedance Surface 277 -- References 280 -- 7 Exotic Dielectrics Made of Periodic Structures 283 -- 7.1 Synthetic Dielectrics Using a 2D Dielectric Columns Array 283 -- 7.1.1 Description of the Example 284 -- 7.1.2 Phase-Relation Diagram of a Uniform Dielectric Medium 285.
7.2 Refractive Index of a 2D Periodic Medium 287 -- 7.2.1 Conclusion 291 -- 7.3 An Artificial Dielectric Made of 1D Periodic Dielectric Layers 292 -- 7.3.1 Effective Refractive Index of the 1D Dielectric Periodic Medium 293 -- 7.3.2 Effective Wave-Impedance of the 1D Dielectric Periodic Medium 293 -- 7.4 Conclusion 295 -- References 295 -- Index 297.
Record Nr. UNINA-9910141517003321
Hwang Ruey-Bing  
[Hoboken, New Jersey] : , : John Wiley & Sons Inc., , 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Periodic structures : mode-matching approach and applications in electromagnetic engineering / / Ruey-Bing (Raybeam) Hwang
Periodic structures : mode-matching approach and applications in electromagnetic engineering / / Ruey-Bing (Raybeam) Hwang
Autore Hwang Ruey-Bing
Edizione [1st edition]
Pubbl/distr/stampa [Hoboken, New Jersey] : , : John Wiley & Sons Inc., , 2013
Descrizione fisica 1 online resource (313 p.)
Disciplina 621.3
Soggetto topico Electric filters
Optoelectronic devices
Wave guides
Antennas (Electronics)
Photonic crystals
Crystal lattices - Electric properties
Electromagnetic waves
ISBN 1-283-64564-5
1-118-18805-5
1-118-18806-3
Classificazione SCI022000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Preface ix -- 1 Introduction 1 -- 1.1 Historical Perspective on the Research in Periodic Structures 1 -- 1.2 From 1D Periodic Stratified Medium to 3D Photonic Crystals: An Overview of this Book 3 -- 1.2.1 Chapter 2: Wave Propagation in Multiple Dielectric Layers 3 -- 1.2.2 Chapter 3: One-Dimensional Periodic Medium 4 -- 1.2.3 Chapter 4: Two- and Three-Dimensional Periodic Structures 6 -- 1.2.4 Chapter 5: Introducing Defects into Periodic Structures 9 -- 1.2.5 Chapter 6: Periodic Impedance Surface 11 -- 1.2.6 Chapter 7: Exotic Dielectrics Made of Periodic Structures 13 -- References 14 -- Further Readings 15 -- 2 Wave Propagation in Multiple Dielectric Layers 17 -- 2.1 Plane-Wave Solutions in a Uniform Dielectric Medium 17 -- 2.2 Transmission-Line Network Representation of a Dielectric Layer of Finite Thickness 21 -- 2.2.1 Wave Propagating in Regular and Exotic Mediums 25 -- 2.3 Scattering Characteristics of Plane Wave by Multiple Dielectric Layers 28 -- 2.3.1 Recursive-Impedance Method 30 -- 2.3.2 Transfer-Matrix Method 32 -- 2.3.3 Scattering-Matrix Method 37 -- 2.4 Transverse Resonance Technique for Determining the Guiding Characteristics of Waves in Multiple Dielectric Layers 45 -- 2.4.1 Transverse Resonance Technique 45 -- 2.4.2 Will Surface Waves be Supported in a Single Interface Environment? 47 -- 2.4.3 Single Dielectric Layer Backed with a PEC or PMC 49 -- 2.4.4 Mode Dispersion Relation of a Closed Structure Consisting of Dielectric Layers 53 -- Appendix: Dyadic Definition and Properties 61 -- References 62 -- Further Reading 63 -- 3 One-Dimensional Periodic Medium 65 -- 3.1 Bloch-Floquet Theorem 65 -- 3.2 Eigenwave in a 1D Holographic Grating 66 -- 3.2.1 Two Space-Harmonic Approximation 68 -- 3.2.2 Single Interface between a Semi-infinite Uniform and a 1D Periodic Medium 76 -- 3.3 Eigenwave in 1D Dielectric Gratings: Modal Transmission-Line Approach 81 -- 3.3.1 In-Plane Incidence: ky =0 88 -- 3.3.2 Out-of-Plane Incidence: ky / = 0 89 -- 3.3.3 Eigenwave in a Two-Tone Periodic Medium 94.
3.3.4 Sturm-Liouville Differential Equation with Periodic Boundary Condition 96 -- 3.4 Eigenwave in a 1D Metallic Periodic Medium 98 -- 3.4.1 Generalized Scattering Matrix at the Interface between a 1D Metallic Periodic Medium and Uniform Medium 99 -- 3.5 Hybrid-Mode Analysis of a 1D Dielectric Grating: Fourier-Modal Approach 102 -- 3.6 Input-Output Relation of a 1D Periodic Medium of Finite Thickness 108 -- 3.7 Scattering Characteristics of a Grating Consisting of Multiple 1D Periodic Layers 111 -- 3.7.1 Building-Block Approach 111 -- 3.7.2 Scattering Analysis of 1D Diffraction Gratings 112 -- 3.8 Guiding Characteristics of Waveguides Consisting of Multiple 1D Periodic Layers 119 -- 3.8.1 Transverse Resonance Technique 119 -- 3.8.2 Dispersion Relation of a 1D Grating Waveguide 119 -- References 129 -- Further Readings 130 -- 4 Two- and Three-Dimensional Periodic Structures 131 -- 4.1 Modal Transmission-Line Approach for a 2D Periodic Metallic Medium: In-Plane Propagation 131 -- 4.1.1 Generalized Scattering Matrix at the Interface between a 1D Periodic Metallic Medium and Uniform Medium 133 -- 4.1.2 Periodic Boundary Condition on the Unit Cell along the y-axis 137 -- 4.1.3 A Simple Graphical Method 138 -- 4.1.4 Phase Relation: The Relationship among kx, ky, and ko 138 -- 4.1.5 Dispersion Relation: The Relationship between ko and kx (or ky) 143 -- 4.1.6 Brillouin Zone and Band Structure 146 -- 4.2 Modal Transmission Line Approach for a 2D Periodic Dielectric Medium: In-Plane Propagation 152 -- 4.2.1 Input-Output Relation at the Interface: Generalized Scattering Matrix Representation 156 -- 4.2.2 Brillouin Diagram and Phase Relation 158 -- 4.3 Double Fourier-Modal Approach for a 2D Dielectric Periodic Structure: Out-of-Plane Propagation 166 -- 4.3.1 Scattering Analysis of a 2D Grating: Out-of-Plane Propagation 171 -- 4.4 Three-Dimensional Periodic Structures 172 -- 4.4.1 Scattering Analysis of a 3D Periodic Structure 174 -- 4.4.2 Eigenwave Analysis of a 3D Periodic Medium 180.
Appendix: Closed-Form Solution of εpq,mn and μpq,mn 189 -- References 190 -- 5 Introducing Defects into Periodic Structures 191 -- 5.1 A Parallel-Plane Waveguide having a Pair of 1D Semi-Infinite Periodic Structures as its Side Walls 191 -- 5.1.1 Bloch Impedance 192 -- 5.1.2 Surface States Supported at the Interface of a Semi-Infinite 1D Periodic Structure 193 -- 5.1.3 A Semi-Infinite 1D Periodic Structure Consisting of Symmetric Dielectric Waveguides 200 -- 5.2 Dispersion Relation of a Parallel-Plane Waveguide with Semi-Infinite 1D Periodic Structures as Waveguide Side Walls 203 -- 5.2.1 Numerical Example 204 -- 5.3 A Parallel-Plane Waveguide with 2D Dielectric Periodic Structures as its Side Walls 208 -- 5.3.1 Method of Mathematical Analysis 211 -- 5.3.2 Dispersion Relation of a Channel with a Pair of 2D Periodic Structures as its Waveguide Side Walls 214 -- 5.4 Scattering Characteristics of a Periodic Structure with Defects 223 -- 5.4.1 Fabry-Perot Etalon 229 -- 5.4.2 The Correlation between the Scattering and Guiding Characteristics 231 -- 5.5 A Parallel-Plane Waveguide with 2D Metallic Periodic Structures as its Side Walls 236 -- 5.6 Other Applications in Microwave Engineering 240 -- References 243 -- 6 Periodic Impedance Surface 245 -- 6.1 Scattering Characteristics of Plane Wave by a 1D Periodic Structure Consisting of a Cavities Array 246 -- 6.1.1 An AMC Surface Made of Corrugated Metal Surface with Quarter-Wavelength Depth 256 -- 6.2 Periodic Impedance Surface Approach (PISA) 264 -- 6.3 Scattering of Plane Wave by 1D Periodic Impedance Surface: Non-Principal Plane Propagation 268 -- 6.3.1 Guiding Characteristics of Waves Supported by a 1D Periodic Impedance Surface 277 -- 6.4 Scattering of Plane Wave by a Dyadic 2D Periodic Impedance Surface 277 -- References 280 -- 7 Exotic Dielectrics Made of Periodic Structures 283 -- 7.1 Synthetic Dielectrics Using a 2D Dielectric Columns Array 283 -- 7.1.1 Description of the Example 284 -- 7.1.2 Phase-Relation Diagram of a Uniform Dielectric Medium 285.
7.2 Refractive Index of a 2D Periodic Medium 287 -- 7.2.1 Conclusion 291 -- 7.3 An Artificial Dielectric Made of 1D Periodic Dielectric Layers 292 -- 7.3.1 Effective Refractive Index of the 1D Dielectric Periodic Medium 293 -- 7.3.2 Effective Wave-Impedance of the 1D Dielectric Periodic Medium 293 -- 7.4 Conclusion 295 -- References 295 -- Index 297.
Record Nr. UNINA-9910813892303321
Hwang Ruey-Bing  
[Hoboken, New Jersey] : , : John Wiley & Sons Inc., , 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Polymers and electromagnetic radiation : fundamentals and practical applications / / Wolfram Schnabel
Polymers and electromagnetic radiation : fundamentals and practical applications / / Wolfram Schnabel
Autore Schnabel W (Wolfram)
Pubbl/distr/stampa Weinheim, Germany : , : Wiley-VCH, , 2014
Descrizione fisica 1 online resource (362 p.)
Disciplina 620.19204228
Soggetto topico Polymers - Effect of radiation on
Electromagnetic waves
Ionizing radiation
Nonionizing radiation
ISBN 3-527-67771-2
3-527-67773-9
3-527-67774-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Polymers and Electromagnetic Radiation: Fundamentals and Practical Applications; Contents; Preface; Introduction; Part I: Non-Ionizing Radiation; 1 Sub-Terahertz Radiation Including Radiofrequency (RF) and Microwave Radiation; 1.1 Absorption; 1.1.1 General Aspects; 1.1.2 Dissipation of Energy; 1.1.2.1 Frequency Dependence; 1.1.2.2 Temperature Dependence; 1.2 Applications in Polymer Chemistry; 1.2.1 General Aspects; 1.2.2 Thermal Effects; 1.2.2.1 Polymer Synthesis; 1.2.2.2 Polymer Processing; 1.2.2.3 Modification of Polymers; 1.2.2.4 Polymer Degradation
1.2.2.5 Polymer Supports for Solid-Phase Organic Synthesis (SPOS)1.2.3 Non-Thermal Effects; 1.2.3.1 Unresolved Questions; 1.2.3.2 Plasma-Assisted Chemistry; 1.3 Applications in Polymer Physics; 1.3.1 Dielectric Spectroscopy of Polymers; 1.3.2 Microwave Probing of Electrical Conductivity in Polymers; 1.3.3 Nondestructive Microwave Testing of Polymer Materials; 1.4 Industrial Applications; References; 2 Infrared Radiation; 2.1 Absorption; 2.1.1 General Aspects; 2.1.2 Crystalline Polymers; 2.1.3 Polarized IR Radiation; 2.1.4 Far-IR Radiation; 2.2 Applications; 2.2.1 General Aspects
2.2.2 Mid-IR Analysis2.2.2.1 Identification of Synthetic Polymers; 2.2.2.2 Proteins; 2.2.2.3 Nucleic Acids; 2.2.3 NIR Analysis of Synthetic Organic Polymers; 2.2.4 Far-IR Analysis of Polymers: Terahertz Spectroscopy; 2.2.4.1 General Aspects; 2.2.4.2 Nondestructive Testing of Plastic Articles: THz Imaging; 2.2.4.3 THz Absorption by Biopolymers; 2.2.4.4 THz Studies of Biopolymers in Liquid Water; 2.2.4.5 Generation of THz Radiation in Poled Polymers; 2.2.5 Special Applications; 2.2.5.1 Thin Polymer Films; 2.2.5.2 Orientation Measurements; 2.2.5.3 IR Microspectroscopy and IR Imaging
2.3 Polymer Characterization by Two-Dimensional IR Spectroscopy2.4 Time-Resolved Measurements in the mid-IR Range; 2.4.1 In-Situ Monitoring of Chemical Reactions; 2.4.2 Transient Two-Dimensional IR Spectroscopy; 2.4.2.1 T-Jump Studies; 2.4.2.2 Flash Photolysis; 2.5 Time-Resolved THz Spectroscopy; 2.5.1 Photoconductivity of Conjugated Polymers; 2.5.2 Folding of Proteins; 2.6 THz Optics Made From Polymers; References; 3 Visible and Ultraviolet Light; 3.1 Absorption; 3.1.1 General Aspects; 3.1.2 The Molecular Orbital Model; 3.1.3 The Jablonski Diagram
3.1.4 Absorption in Synthetic Nonconjugated Polymers3.1.5 Absorption in Synthetic Conjugated Polymers; 3.1.6 Absorption in Biopolymers; 3.1.7 Time-Resolved Spectroscopy; 3.2 Applications; 3.2.1 General Aspects; 3.2.2 Applications in Polymer Chemistry; 3.2.2.1 Polymer Synthesis; 3.2.2.2 Modification of Synthetic Polymers; 3.2.2.3 Modification of Biopolymers; 3.2.3 Applications in Polymer Physics; 3.2.3.1 Spectroscopy; 3.2.3.2 Light Scattering; 3.2.3.3 Raman Scattering; 3.3 Technical Developments; 3.3.1 Introductory Remarks; 3.3.2 Photocuring; 3.3.3 Photolithography; 3.3.3.1 General Aspects
3.3.3.2 248 nm Lithography
Record Nr. UNINA-9910138964603321
Schnabel W (Wolfram)  
Weinheim, Germany : , : Wiley-VCH, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Polymers and electromagnetic radiation : fundamentals and practical applications / / Wolfram Schnabel
Polymers and electromagnetic radiation : fundamentals and practical applications / / Wolfram Schnabel
Autore Schnabel W (Wolfram)
Pubbl/distr/stampa Weinheim, Germany : , : Wiley-VCH, , 2014
Descrizione fisica 1 online resource (362 p.)
Disciplina 620.19204228
Soggetto topico Polymers - Effect of radiation on
Electromagnetic waves
Ionizing radiation
Nonionizing radiation
ISBN 3-527-67771-2
3-527-67773-9
3-527-67774-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Polymers and Electromagnetic Radiation: Fundamentals and Practical Applications; Contents; Preface; Introduction; Part I: Non-Ionizing Radiation; 1 Sub-Terahertz Radiation Including Radiofrequency (RF) and Microwave Radiation; 1.1 Absorption; 1.1.1 General Aspects; 1.1.2 Dissipation of Energy; 1.1.2.1 Frequency Dependence; 1.1.2.2 Temperature Dependence; 1.2 Applications in Polymer Chemistry; 1.2.1 General Aspects; 1.2.2 Thermal Effects; 1.2.2.1 Polymer Synthesis; 1.2.2.2 Polymer Processing; 1.2.2.3 Modification of Polymers; 1.2.2.4 Polymer Degradation
1.2.2.5 Polymer Supports for Solid-Phase Organic Synthesis (SPOS)1.2.3 Non-Thermal Effects; 1.2.3.1 Unresolved Questions; 1.2.3.2 Plasma-Assisted Chemistry; 1.3 Applications in Polymer Physics; 1.3.1 Dielectric Spectroscopy of Polymers; 1.3.2 Microwave Probing of Electrical Conductivity in Polymers; 1.3.3 Nondestructive Microwave Testing of Polymer Materials; 1.4 Industrial Applications; References; 2 Infrared Radiation; 2.1 Absorption; 2.1.1 General Aspects; 2.1.2 Crystalline Polymers; 2.1.3 Polarized IR Radiation; 2.1.4 Far-IR Radiation; 2.2 Applications; 2.2.1 General Aspects
2.2.2 Mid-IR Analysis2.2.2.1 Identification of Synthetic Polymers; 2.2.2.2 Proteins; 2.2.2.3 Nucleic Acids; 2.2.3 NIR Analysis of Synthetic Organic Polymers; 2.2.4 Far-IR Analysis of Polymers: Terahertz Spectroscopy; 2.2.4.1 General Aspects; 2.2.4.2 Nondestructive Testing of Plastic Articles: THz Imaging; 2.2.4.3 THz Absorption by Biopolymers; 2.2.4.4 THz Studies of Biopolymers in Liquid Water; 2.2.4.5 Generation of THz Radiation in Poled Polymers; 2.2.5 Special Applications; 2.2.5.1 Thin Polymer Films; 2.2.5.2 Orientation Measurements; 2.2.5.3 IR Microspectroscopy and IR Imaging
2.3 Polymer Characterization by Two-Dimensional IR Spectroscopy2.4 Time-Resolved Measurements in the mid-IR Range; 2.4.1 In-Situ Monitoring of Chemical Reactions; 2.4.2 Transient Two-Dimensional IR Spectroscopy; 2.4.2.1 T-Jump Studies; 2.4.2.2 Flash Photolysis; 2.5 Time-Resolved THz Spectroscopy; 2.5.1 Photoconductivity of Conjugated Polymers; 2.5.2 Folding of Proteins; 2.6 THz Optics Made From Polymers; References; 3 Visible and Ultraviolet Light; 3.1 Absorption; 3.1.1 General Aspects; 3.1.2 The Molecular Orbital Model; 3.1.3 The Jablonski Diagram
3.1.4 Absorption in Synthetic Nonconjugated Polymers3.1.5 Absorption in Synthetic Conjugated Polymers; 3.1.6 Absorption in Biopolymers; 3.1.7 Time-Resolved Spectroscopy; 3.2 Applications; 3.2.1 General Aspects; 3.2.2 Applications in Polymer Chemistry; 3.2.2.1 Polymer Synthesis; 3.2.2.2 Modification of Synthetic Polymers; 3.2.2.3 Modification of Biopolymers; 3.2.3 Applications in Polymer Physics; 3.2.3.1 Spectroscopy; 3.2.3.2 Light Scattering; 3.2.3.3 Raman Scattering; 3.3 Technical Developments; 3.3.1 Introductory Remarks; 3.3.2 Photocuring; 3.3.3 Photolithography; 3.3.3.1 General Aspects
3.3.3.2 248 nm Lithography
Record Nr. UNINA-9910808078503321
Schnabel W (Wolfram)  
Weinheim, Germany : , : Wiley-VCH, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui