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Applied nonlinear dynamics [[electronic resource] ] : analytical, computational, and experimental methods / / Ali H. Nayfeh, Balakumar Balachandran
Applied nonlinear dynamics [[electronic resource] ] : analytical, computational, and experimental methods / / Ali H. Nayfeh, Balakumar Balachandran
Autore Nayfeh Ali Hasan <1933->
Pubbl/distr/stampa New York, : Wiley, c1995
Descrizione fisica 1 online resource (703 p.)
Disciplina 515.35
621.38131
Altri autori (Persone) BalachandranBalakumar
Collana Wiley series in nonlinear science
Soggetto topico Dynamics
Nonlinear theories
ISBN 1-282-01051-4
9786612010514
3-527-61754-X
3-527-61755-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto APPLIED NONLINEAR DYNAMICS; CONTENTS; PREFACE; 1 INTRODUCTION; 1.1 DISCRETE-TIME SYSTEMS; 1.2 CONTINUOUS-TIME SYSTEMS; 1.2.1 Nonautonomous Systems; 1.2.2 Autonomous Systems; 1.2.3 Phase Portraits and Flows; 1.3 ATTRACTING SETS; 1.4 CONCEPTS OF STABILITY; 1.4.1 Lyapunov Stability; 1.4.2 Asymptotic Stability; 1.4.3 Poincaré Stability; 1.4.4 Lagrange Stability (Bounded Stability); 1.4.5 Stability Through Lyapunov Function; 1.5 ATTRACTORS; 1.6 COMMENTS; 1.7 EXERCISES; 2 EQUILIBRIUM SOLUTIONS; 2.1 CONTINUOUS-TIME SYSTEMS; 2.1.1 Linearization Near an Equilibrium Solution
2.1.2 Classification and Stability of Equilibrium Solutions2.1.3 Eigenspaces and Invariant Manifolds; 2.1.4 Analytical Construction of Stable and Unstable Manifolds; 2.2 FIXED POINTS OF MAPS; 2.3 BIFURCATIONS OF CONTINUOUS SYSTEMS; 2.3.1 Local Bifurcations of Fixed Points; 2.3.2 Normal Forms for Bifurcations; 2.3.3 Bifurcation Diagrams and Sets; 2.3.4 Center Manifold Reduction; 2.3.5 The Lyapunov-Schmidt Method; 2.3.6 The Method of Multiple Scales; 2.3.7 Structural Stability; 2.3.8 Stability of Bifurcations to Perturbations; 2.3.9 Codimension of a Bifurcation; 2.3.10 Global Bifurcations
2.4 BIFURCATIONS OF MAPS2.5 EXERCISES; 3 PERIODIC SOLUTIONS; 3.1 PERIODIC SOLUTIONS; 3.1.1 Autonomous Systems; 3.1.2 Nonautonomous Systems; 3.1.3 Comments; 3.2 FLOQUET THEORY; 3.2.1 Autonomous Systems; 3.2.2 Nonautonomous Systems; 3.2.3 Comments on the Monodromy Matrix; 3.2.4 Manifolds of a Periodic Solution; 3.3 POINCARÉ MAPS; 3.3.1 Nonautonomous Systems; 3.3.2 Autonomous Systems; 3.4 BIFURCATIONS; 3.4.1 Symmetry-Breaking Bifurcation; 3.4.2 Cyclic-Fold Bifurcation; 3.4.3 Period-Doubling or Flip Bifurcation; 3.4.4 Transcritical Bifurcation; 3.4.5 Secondary Hopf or Neimark Bifurcation
3.5 ANALYTICAL CONSTRUCTIONS3.5.1 Method of Multiple Scales; 3.5.2 Center Manifold Reduction; 3.5.3 General Case; 3.6 EXERCISES; 4 QUASIPERIODIC SOLUTIONS; 4.1 POINCARÉ MAPS; 4.1.1 Winding Time and Rotation Number; 4.1.2 Second-Order Poincaré Map; 4.1.3 Comments; 4.2 CIRCLE MAP; 4.3 CONSTRUCTIONS; 4.3.1 Method of Multiple Scales; 4.3.2 Spectral Balance Method; 4.3.3 Poincaré Map Method; 4.4 STABILITY; 4.5 SYNCHRONIZATION; 4.6 EXERCISES; 5 CHAOS; 5.1 MAPS; 5.2 CONTINUOUS-TIME SYSTEMS; 5.3 PERIOD-DOUBLING SCENARIO; 5.4 INTERMITTENCY MECHANISMS; 5.4.1 Type I Intermittency
5.4.2 Type III Intermittency5.4.3 Type II Intermittency; 5.5 QUASIPERIODIC ROUTES; 5.5.1 Ruelle-Takens Scenario; 5.5.2 Torus Breakdown; 5.5.3 Torus Doubling; 5.6 CRISES; 5.7 MELNIKOV THEORY; 5.7.1 Homoclinic Tangles; 5.7.2 Heteroclinic Tangles; 5.7.3 Numerical Prediction of Manifold Intersections; 5.7.4 Analytical Prediction of Manifold Intersections; 5.7.5 Application of Melnikov's Method; 5.7.6 Comments; 5.8 BIFURCATIONS OF HOMOCLINIC ORBITS; 5.8.1 Planar Systems; 5.8.2 Orbits Homoclinic to a Saddle; 5.8.3 Orbits Homoclinic to a Saddle Focus; 5.8.4 Comments; 5.9 EXERCISES
6 NUMERICAL METHODS
Record Nr. UNINA-9910144739203321
Nayfeh Ali Hasan <1933->  
New York, : Wiley, c1995
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Applied nonlinear dynamics [[electronic resource] ] : analytical, computational, and experimental methods / / Ali H. Nayfeh, Balakumar Balachandran
Applied nonlinear dynamics [[electronic resource] ] : analytical, computational, and experimental methods / / Ali H. Nayfeh, Balakumar Balachandran
Autore Nayfeh Ali Hasan <1933->
Pubbl/distr/stampa New York, : Wiley, c1995
Descrizione fisica 1 online resource (703 p.)
Disciplina 515.35
621.38131
Altri autori (Persone) BalachandranBalakumar
Collana Wiley series in nonlinear science
Soggetto topico Dynamics
Nonlinear theories
ISBN 1-282-01051-4
9786612010514
3-527-61754-X
3-527-61755-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto APPLIED NONLINEAR DYNAMICS; CONTENTS; PREFACE; 1 INTRODUCTION; 1.1 DISCRETE-TIME SYSTEMS; 1.2 CONTINUOUS-TIME SYSTEMS; 1.2.1 Nonautonomous Systems; 1.2.2 Autonomous Systems; 1.2.3 Phase Portraits and Flows; 1.3 ATTRACTING SETS; 1.4 CONCEPTS OF STABILITY; 1.4.1 Lyapunov Stability; 1.4.2 Asymptotic Stability; 1.4.3 Poincaré Stability; 1.4.4 Lagrange Stability (Bounded Stability); 1.4.5 Stability Through Lyapunov Function; 1.5 ATTRACTORS; 1.6 COMMENTS; 1.7 EXERCISES; 2 EQUILIBRIUM SOLUTIONS; 2.1 CONTINUOUS-TIME SYSTEMS; 2.1.1 Linearization Near an Equilibrium Solution
2.1.2 Classification and Stability of Equilibrium Solutions2.1.3 Eigenspaces and Invariant Manifolds; 2.1.4 Analytical Construction of Stable and Unstable Manifolds; 2.2 FIXED POINTS OF MAPS; 2.3 BIFURCATIONS OF CONTINUOUS SYSTEMS; 2.3.1 Local Bifurcations of Fixed Points; 2.3.2 Normal Forms for Bifurcations; 2.3.3 Bifurcation Diagrams and Sets; 2.3.4 Center Manifold Reduction; 2.3.5 The Lyapunov-Schmidt Method; 2.3.6 The Method of Multiple Scales; 2.3.7 Structural Stability; 2.3.8 Stability of Bifurcations to Perturbations; 2.3.9 Codimension of a Bifurcation; 2.3.10 Global Bifurcations
2.4 BIFURCATIONS OF MAPS2.5 EXERCISES; 3 PERIODIC SOLUTIONS; 3.1 PERIODIC SOLUTIONS; 3.1.1 Autonomous Systems; 3.1.2 Nonautonomous Systems; 3.1.3 Comments; 3.2 FLOQUET THEORY; 3.2.1 Autonomous Systems; 3.2.2 Nonautonomous Systems; 3.2.3 Comments on the Monodromy Matrix; 3.2.4 Manifolds of a Periodic Solution; 3.3 POINCARÉ MAPS; 3.3.1 Nonautonomous Systems; 3.3.2 Autonomous Systems; 3.4 BIFURCATIONS; 3.4.1 Symmetry-Breaking Bifurcation; 3.4.2 Cyclic-Fold Bifurcation; 3.4.3 Period-Doubling or Flip Bifurcation; 3.4.4 Transcritical Bifurcation; 3.4.5 Secondary Hopf or Neimark Bifurcation
3.5 ANALYTICAL CONSTRUCTIONS3.5.1 Method of Multiple Scales; 3.5.2 Center Manifold Reduction; 3.5.3 General Case; 3.6 EXERCISES; 4 QUASIPERIODIC SOLUTIONS; 4.1 POINCARÉ MAPS; 4.1.1 Winding Time and Rotation Number; 4.1.2 Second-Order Poincaré Map; 4.1.3 Comments; 4.2 CIRCLE MAP; 4.3 CONSTRUCTIONS; 4.3.1 Method of Multiple Scales; 4.3.2 Spectral Balance Method; 4.3.3 Poincaré Map Method; 4.4 STABILITY; 4.5 SYNCHRONIZATION; 4.6 EXERCISES; 5 CHAOS; 5.1 MAPS; 5.2 CONTINUOUS-TIME SYSTEMS; 5.3 PERIOD-DOUBLING SCENARIO; 5.4 INTERMITTENCY MECHANISMS; 5.4.1 Type I Intermittency
5.4.2 Type III Intermittency5.4.3 Type II Intermittency; 5.5 QUASIPERIODIC ROUTES; 5.5.1 Ruelle-Takens Scenario; 5.5.2 Torus Breakdown; 5.5.3 Torus Doubling; 5.6 CRISES; 5.7 MELNIKOV THEORY; 5.7.1 Homoclinic Tangles; 5.7.2 Heteroclinic Tangles; 5.7.3 Numerical Prediction of Manifold Intersections; 5.7.4 Analytical Prediction of Manifold Intersections; 5.7.5 Application of Melnikov's Method; 5.7.6 Comments; 5.8 BIFURCATIONS OF HOMOCLINIC ORBITS; 5.8.1 Planar Systems; 5.8.2 Orbits Homoclinic to a Saddle; 5.8.3 Orbits Homoclinic to a Saddle Focus; 5.8.4 Comments; 5.9 EXERCISES
6 NUMERICAL METHODS
Record Nr. UNISA-996203214403316
Nayfeh Ali Hasan <1933->  
New York, : Wiley, c1995
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Applied nonlinear dynamics [[electronic resource] ] : analytical, computational, and experimental methods / / Ali H. Nayfeh, Balakumar Balachandran
Applied nonlinear dynamics [[electronic resource] ] : analytical, computational, and experimental methods / / Ali H. Nayfeh, Balakumar Balachandran
Autore Nayfeh Ali Hasan <1933->
Pubbl/distr/stampa New York, : Wiley, c1995
Descrizione fisica 1 online resource (703 p.)
Disciplina 515.35
621.38131
Altri autori (Persone) BalachandranBalakumar
Collana Wiley series in nonlinear science
Soggetto topico Dynamics
Nonlinear theories
ISBN 1-282-01051-4
9786612010514
3-527-61754-X
3-527-61755-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto APPLIED NONLINEAR DYNAMICS; CONTENTS; PREFACE; 1 INTRODUCTION; 1.1 DISCRETE-TIME SYSTEMS; 1.2 CONTINUOUS-TIME SYSTEMS; 1.2.1 Nonautonomous Systems; 1.2.2 Autonomous Systems; 1.2.3 Phase Portraits and Flows; 1.3 ATTRACTING SETS; 1.4 CONCEPTS OF STABILITY; 1.4.1 Lyapunov Stability; 1.4.2 Asymptotic Stability; 1.4.3 Poincaré Stability; 1.4.4 Lagrange Stability (Bounded Stability); 1.4.5 Stability Through Lyapunov Function; 1.5 ATTRACTORS; 1.6 COMMENTS; 1.7 EXERCISES; 2 EQUILIBRIUM SOLUTIONS; 2.1 CONTINUOUS-TIME SYSTEMS; 2.1.1 Linearization Near an Equilibrium Solution
2.1.2 Classification and Stability of Equilibrium Solutions2.1.3 Eigenspaces and Invariant Manifolds; 2.1.4 Analytical Construction of Stable and Unstable Manifolds; 2.2 FIXED POINTS OF MAPS; 2.3 BIFURCATIONS OF CONTINUOUS SYSTEMS; 2.3.1 Local Bifurcations of Fixed Points; 2.3.2 Normal Forms for Bifurcations; 2.3.3 Bifurcation Diagrams and Sets; 2.3.4 Center Manifold Reduction; 2.3.5 The Lyapunov-Schmidt Method; 2.3.6 The Method of Multiple Scales; 2.3.7 Structural Stability; 2.3.8 Stability of Bifurcations to Perturbations; 2.3.9 Codimension of a Bifurcation; 2.3.10 Global Bifurcations
2.4 BIFURCATIONS OF MAPS2.5 EXERCISES; 3 PERIODIC SOLUTIONS; 3.1 PERIODIC SOLUTIONS; 3.1.1 Autonomous Systems; 3.1.2 Nonautonomous Systems; 3.1.3 Comments; 3.2 FLOQUET THEORY; 3.2.1 Autonomous Systems; 3.2.2 Nonautonomous Systems; 3.2.3 Comments on the Monodromy Matrix; 3.2.4 Manifolds of a Periodic Solution; 3.3 POINCARÉ MAPS; 3.3.1 Nonautonomous Systems; 3.3.2 Autonomous Systems; 3.4 BIFURCATIONS; 3.4.1 Symmetry-Breaking Bifurcation; 3.4.2 Cyclic-Fold Bifurcation; 3.4.3 Period-Doubling or Flip Bifurcation; 3.4.4 Transcritical Bifurcation; 3.4.5 Secondary Hopf or Neimark Bifurcation
3.5 ANALYTICAL CONSTRUCTIONS3.5.1 Method of Multiple Scales; 3.5.2 Center Manifold Reduction; 3.5.3 General Case; 3.6 EXERCISES; 4 QUASIPERIODIC SOLUTIONS; 4.1 POINCARÉ MAPS; 4.1.1 Winding Time and Rotation Number; 4.1.2 Second-Order Poincaré Map; 4.1.3 Comments; 4.2 CIRCLE MAP; 4.3 CONSTRUCTIONS; 4.3.1 Method of Multiple Scales; 4.3.2 Spectral Balance Method; 4.3.3 Poincaré Map Method; 4.4 STABILITY; 4.5 SYNCHRONIZATION; 4.6 EXERCISES; 5 CHAOS; 5.1 MAPS; 5.2 CONTINUOUS-TIME SYSTEMS; 5.3 PERIOD-DOUBLING SCENARIO; 5.4 INTERMITTENCY MECHANISMS; 5.4.1 Type I Intermittency
5.4.2 Type III Intermittency5.4.3 Type II Intermittency; 5.5 QUASIPERIODIC ROUTES; 5.5.1 Ruelle-Takens Scenario; 5.5.2 Torus Breakdown; 5.5.3 Torus Doubling; 5.6 CRISES; 5.7 MELNIKOV THEORY; 5.7.1 Homoclinic Tangles; 5.7.2 Heteroclinic Tangles; 5.7.3 Numerical Prediction of Manifold Intersections; 5.7.4 Analytical Prediction of Manifold Intersections; 5.7.5 Application of Melnikov's Method; 5.7.6 Comments; 5.8 BIFURCATIONS OF HOMOCLINIC ORBITS; 5.8.1 Planar Systems; 5.8.2 Orbits Homoclinic to a Saddle; 5.8.3 Orbits Homoclinic to a Saddle Focus; 5.8.4 Comments; 5.9 EXERCISES
6 NUMERICAL METHODS
Record Nr. UNINA-9910830038503321
Nayfeh Ali Hasan <1933->  
New York, : Wiley, c1995
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Applied nonlinear dynamics : analytical, computational, and experimental methods / / Ali H. Nayfeh, Balakumar Balachandran
Applied nonlinear dynamics : analytical, computational, and experimental methods / / Ali H. Nayfeh, Balakumar Balachandran
Autore Nayfeh Ali Hasan <1933->
Pubbl/distr/stampa New York, : Wiley, c1995
Descrizione fisica 1 online resource (703 p.)
Disciplina 515.35
621.38131
Altri autori (Persone) BalachandranBalakumar
Collana Wiley series in nonlinear science
Soggetto topico Dynamics
Nonlinear theories
ISBN 9786612010514
9781282010512
1282010514
9783527617548
352761754X
9783527617555
3527617558
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto APPLIED NONLINEAR DYNAMICS; CONTENTS; PREFACE; 1 INTRODUCTION; 1.1 DISCRETE-TIME SYSTEMS; 1.2 CONTINUOUS-TIME SYSTEMS; 1.2.1 Nonautonomous Systems; 1.2.2 Autonomous Systems; 1.2.3 Phase Portraits and Flows; 1.3 ATTRACTING SETS; 1.4 CONCEPTS OF STABILITY; 1.4.1 Lyapunov Stability; 1.4.2 Asymptotic Stability; 1.4.3 Poincaré Stability; 1.4.4 Lagrange Stability (Bounded Stability); 1.4.5 Stability Through Lyapunov Function; 1.5 ATTRACTORS; 1.6 COMMENTS; 1.7 EXERCISES; 2 EQUILIBRIUM SOLUTIONS; 2.1 CONTINUOUS-TIME SYSTEMS; 2.1.1 Linearization Near an Equilibrium Solution
2.1.2 Classification and Stability of Equilibrium Solutions2.1.3 Eigenspaces and Invariant Manifolds; 2.1.4 Analytical Construction of Stable and Unstable Manifolds; 2.2 FIXED POINTS OF MAPS; 2.3 BIFURCATIONS OF CONTINUOUS SYSTEMS; 2.3.1 Local Bifurcations of Fixed Points; 2.3.2 Normal Forms for Bifurcations; 2.3.3 Bifurcation Diagrams and Sets; 2.3.4 Center Manifold Reduction; 2.3.5 The Lyapunov-Schmidt Method; 2.3.6 The Method of Multiple Scales; 2.3.7 Structural Stability; 2.3.8 Stability of Bifurcations to Perturbations; 2.3.9 Codimension of a Bifurcation; 2.3.10 Global Bifurcations
2.4 BIFURCATIONS OF MAPS2.5 EXERCISES; 3 PERIODIC SOLUTIONS; 3.1 PERIODIC SOLUTIONS; 3.1.1 Autonomous Systems; 3.1.2 Nonautonomous Systems; 3.1.3 Comments; 3.2 FLOQUET THEORY; 3.2.1 Autonomous Systems; 3.2.2 Nonautonomous Systems; 3.2.3 Comments on the Monodromy Matrix; 3.2.4 Manifolds of a Periodic Solution; 3.3 POINCARÉ MAPS; 3.3.1 Nonautonomous Systems; 3.3.2 Autonomous Systems; 3.4 BIFURCATIONS; 3.4.1 Symmetry-Breaking Bifurcation; 3.4.2 Cyclic-Fold Bifurcation; 3.4.3 Period-Doubling or Flip Bifurcation; 3.4.4 Transcritical Bifurcation; 3.4.5 Secondary Hopf or Neimark Bifurcation
3.5 ANALYTICAL CONSTRUCTIONS3.5.1 Method of Multiple Scales; 3.5.2 Center Manifold Reduction; 3.5.3 General Case; 3.6 EXERCISES; 4 QUASIPERIODIC SOLUTIONS; 4.1 POINCARÉ MAPS; 4.1.1 Winding Time and Rotation Number; 4.1.2 Second-Order Poincaré Map; 4.1.3 Comments; 4.2 CIRCLE MAP; 4.3 CONSTRUCTIONS; 4.3.1 Method of Multiple Scales; 4.3.2 Spectral Balance Method; 4.3.3 Poincaré Map Method; 4.4 STABILITY; 4.5 SYNCHRONIZATION; 4.6 EXERCISES; 5 CHAOS; 5.1 MAPS; 5.2 CONTINUOUS-TIME SYSTEMS; 5.3 PERIOD-DOUBLING SCENARIO; 5.4 INTERMITTENCY MECHANISMS; 5.4.1 Type I Intermittency
5.4.2 Type III Intermittency5.4.3 Type II Intermittency; 5.5 QUASIPERIODIC ROUTES; 5.5.1 Ruelle-Takens Scenario; 5.5.2 Torus Breakdown; 5.5.3 Torus Doubling; 5.6 CRISES; 5.7 MELNIKOV THEORY; 5.7.1 Homoclinic Tangles; 5.7.2 Heteroclinic Tangles; 5.7.3 Numerical Prediction of Manifold Intersections; 5.7.4 Analytical Prediction of Manifold Intersections; 5.7.5 Application of Melnikov's Method; 5.7.6 Comments; 5.8 BIFURCATIONS OF HOMOCLINIC ORBITS; 5.8.1 Planar Systems; 5.8.2 Orbits Homoclinic to a Saddle; 5.8.3 Orbits Homoclinic to a Saddle Focus; 5.8.4 Comments; 5.9 EXERCISES
6 NUMERICAL METHODS
Record Nr. UNINA-9911019151103321
Nayfeh Ali Hasan <1933->  
New York, : Wiley, c1995
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Quasioptical systems : Gaussian beam, quasioptical propagation and applications / Paul F. Goldsmith
Quasioptical systems : Gaussian beam, quasioptical propagation and applications / Paul F. Goldsmith
Autore Goldsmith, Paul F. <1948- >
Pubbl/distr/stampa New York, : Institute of electrical and electronics engineers, c1998
Descrizione fisica XVII, 412 p. : ill. ; 26 cm.
Disciplina 621.381
621.38131
Collana IEEE press/Chapman & Hall publishers series on microwave technology and RF
ISBN 0780334396
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISANNIO-MIL0553000
Goldsmith, Paul F. <1948- >  
New York, : Institute of electrical and electronics engineers, c1998
Materiale a stampa
Lo trovi qui: Univ. del Sannio
Opac: Controlla la disponibilità qui
Radiating non-uniform transmission line systems and the partial element equivalent circuit method [[electronic resource] /] / Jurgen Nitsch, Frank Gronwald and Günter Wollenberg
Radiating non-uniform transmission line systems and the partial element equivalent circuit method [[electronic resource] /] / Jurgen Nitsch, Frank Gronwald and Günter Wollenberg
Autore Nitsch Jürgen
Pubbl/distr/stampa Hoboken, NJ, : J. Wiley, c2009
Descrizione fisica 1 online resource (350 p.)
Disciplina 621.38131
621.382/24
Altri autori (Persone) GronwaldFrank
WollenbergGünter
Soggetto topico Electromagnetic compatibility - Mathematical models
Electric lines - Mathematical models
Electronic circuit design - Data processing
Electronic apparatus and appliances - Design and construction - Data processing
ISBN 1-282-38498-8
9786612384981
0-470-68242-6
0-470-68241-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto RADIATING NONUNIFORM TRANSMISSION-LINE SYSTEMS AND THE PARTIAL ELEMENT EQUIVALENT CIRCUIT METHOD; Contents; Preface; References; Acknowledgments; List of Symbols; Introduction; References; 1 Fundamentals of Electrodynamics; 1.1 Maxwell Equations Derived from Conservation Laws - an Axiomatic Approach; 1.1.1 Charge Conservation; 1.1.2 Lorentz Force and Magnetic Flux Conservation; 1.1.3 Constitutive Relations and the Properties of Space time; 1.1.4 Remarks; 1.2 The Electromagnetic Field as a Gauge Field - a Gauge Field Approach
1.2.1 Differences of Physical Fields that are Described by Reference Systems 1.2.2 The Phase of Microscopic Matter Fields; 1.2.3 The Reference Frame of a Phase; 1.2.4 The Gauge Fields of a Phase; 1.2.5 Dynamics of the Gauge Field; 1.3 The Relation Between the Axiomatic Approach and the Gauge Field Approach; 1.3.1 No ether Theorem and Electric Charge Conservation; 1.3.2 Minimal Coupling and the Lorentz Force; 1.3.3 Bianchi Identity and Magnetic Flux Conservation; 1.3.4 Gauge Approach and Constitutive Relations; 1.4 Solutions of Maxwell Equations; 1.4.1 Wave Equations
1.4.1.1 Decoupling of Maxwell Equations 1.4.1.2 Equations of Motion for the Electromagnetic Potentials; 1.4.1.3 Maxwell Equations in the Frequency Domain and Helmholtz Equations; 1.4.1.4 Maxwell Equations in Reciprocal Space; 1.4.2 Boundary Conditions at Interfaces; 1.4.3 Dynamical and Nondynamical Components of the Electromagnetic Field; 1.4.3.1 Helmholtz's Vector Theorem, Longitudinal and Transverse Fields; 1.4.3.2 Nondynamical Maxwell Equations as Boundary Conditions in Time; 1.4.3.3 Longitudinal Part of the Maxwell Equations; 1.4.3.4 Transverse Part of the Maxwell Equations
1.4.4 Electromagnetic Energy and the Singularities of the Electromagnetic Field 1.4.5 Coulomb Fields and Radiation Fields; 1.4.6 The Green's Function Method; 1.4.6.1 Basic Ideas; 1.4.6.2 Self-Adjointness of Differential Operators and Boundary Conditions; 1.4.6.3 General Solutions of Maxwell Equations; 1.4.6.4 Basic Relations Between Electromagnetic Green's Functions; 1.5 Boundary Value Problems and Integral Equations; 1.5.1 Surface Integral Equations in Short; 1.5.2 The Standard Electric Field Integral Equations of Antenna Theory and Radiating Nonuniform Transmission-Line Systems
1.5.2.1 Pocklington's Equation 1.5.2.2 Hall ́en's Equation; 1.5.2.3 Mixed-Potential Integral Equation; 1.5.2.4 Schelkunoff 's Equation; References; 2 Nonuniform Transmission-Line Systems; 2.1 Multiconductor Transmission Lines: General Equations; 2.1.1 Geometric Representation of Nonuniform Transmission Lines; 2.1.1.1 Local Coordinate System; 2.1.1.2 Tangential Surface Vector; 2.1.1.3 Volume and Surface Integrals; 2.1.2 Derivation of Generalized Transmission-Line Equations; 2.1.2.1 Continuity Equation; 2.1.2.2 Reconstruction of the Densities; 2.1.3 Mixed Potential Integral Equation
2.1.3.1 Thin-Wire Approximation
Record Nr. UNINA-9910139970503321
Nitsch Jürgen  
Hoboken, NJ, : J. Wiley, c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Radiating non-uniform transmission line systems and the partial element equivalent circuit method / / Jurgen Nitsch, Frank Gronwald and Gunter Wollenberg
Radiating non-uniform transmission line systems and the partial element equivalent circuit method / / Jurgen Nitsch, Frank Gronwald and Gunter Wollenberg
Autore Nitsch Jurgen
Edizione [1st ed.]
Pubbl/distr/stampa Hoboken, NJ, : J. Wiley, c2009
Descrizione fisica 1 online resource (350 p.)
Disciplina 621.38131
621.382/24
Altri autori (Persone) GronwaldFrank
WollenbergGunter
Soggetto topico Electromagnetic compatibility - Mathematical models
Electric lines - Mathematical models
Electronic circuit design - Data processing
Electronic apparatus and appliances - Design and construction - Data processing
ISBN 9786612384981
9781282384989
1282384988
9780470682425
0470682426
9780470682418
0470682418
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto RADIATING NONUNIFORM TRANSMISSION-LINE SYSTEMS AND THE PARTIAL ELEMENT EQUIVALENT CIRCUIT METHOD; Contents; Preface; References; Acknowledgments; List of Symbols; Introduction; References; 1 Fundamentals of Electrodynamics; 1.1 Maxwell Equations Derived from Conservation Laws - an Axiomatic Approach; 1.1.1 Charge Conservation; 1.1.2 Lorentz Force and Magnetic Flux Conservation; 1.1.3 Constitutive Relations and the Properties of Space time; 1.1.4 Remarks; 1.2 The Electromagnetic Field as a Gauge Field - a Gauge Field Approach
1.2.1 Differences of Physical Fields that are Described by Reference Systems 1.2.2 The Phase of Microscopic Matter Fields; 1.2.3 The Reference Frame of a Phase; 1.2.4 The Gauge Fields of a Phase; 1.2.5 Dynamics of the Gauge Field; 1.3 The Relation Between the Axiomatic Approach and the Gauge Field Approach; 1.3.1 No ether Theorem and Electric Charge Conservation; 1.3.2 Minimal Coupling and the Lorentz Force; 1.3.3 Bianchi Identity and Magnetic Flux Conservation; 1.3.4 Gauge Approach and Constitutive Relations; 1.4 Solutions of Maxwell Equations; 1.4.1 Wave Equations
1.4.1.1 Decoupling of Maxwell Equations 1.4.1.2 Equations of Motion for the Electromagnetic Potentials; 1.4.1.3 Maxwell Equations in the Frequency Domain and Helmholtz Equations; 1.4.1.4 Maxwell Equations in Reciprocal Space; 1.4.2 Boundary Conditions at Interfaces; 1.4.3 Dynamical and Nondynamical Components of the Electromagnetic Field; 1.4.3.1 Helmholtz's Vector Theorem, Longitudinal and Transverse Fields; 1.4.3.2 Nondynamical Maxwell Equations as Boundary Conditions in Time; 1.4.3.3 Longitudinal Part of the Maxwell Equations; 1.4.3.4 Transverse Part of the Maxwell Equations
1.4.4 Electromagnetic Energy and the Singularities of the Electromagnetic Field 1.4.5 Coulomb Fields and Radiation Fields; 1.4.6 The Green's Function Method; 1.4.6.1 Basic Ideas; 1.4.6.2 Self-Adjointness of Differential Operators and Boundary Conditions; 1.4.6.3 General Solutions of Maxwell Equations; 1.4.6.4 Basic Relations Between Electromagnetic Green's Functions; 1.5 Boundary Value Problems and Integral Equations; 1.5.1 Surface Integral Equations in Short; 1.5.2 The Standard Electric Field Integral Equations of Antenna Theory and Radiating Nonuniform Transmission-Line Systems
1.5.2.1 Pocklington's Equation 1.5.2.2 Hall ́en's Equation; 1.5.2.3 Mixed-Potential Integral Equation; 1.5.2.4 Schelkunoff 's Equation; References; 2 Nonuniform Transmission-Line Systems; 2.1 Multiconductor Transmission Lines: General Equations; 2.1.1 Geometric Representation of Nonuniform Transmission Lines; 2.1.1.1 Local Coordinate System; 2.1.1.2 Tangential Surface Vector; 2.1.1.3 Volume and Surface Integrals; 2.1.2 Derivation of Generalized Transmission-Line Equations; 2.1.2.1 Continuity Equation; 2.1.2.2 Reconstruction of the Densities; 2.1.3 Mixed Potential Integral Equation
2.1.3.1 Thin-Wire Approximation
Record Nr. UNINA-9910826929703321
Nitsch Jurgen  
Hoboken, NJ, : J. Wiley, c2009
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The transmission-line modeling method : TLM / Christos Christopoulos
The transmission-line modeling method : TLM / Christos Christopoulos
Autore Christopoulos, Christos
Pubbl/distr/stampa New York, : IEEE
Descrizione fisica XI, 220 p. : ill. ; 24 cm.
Disciplina 621.381
621.38131
Collana IEEE/OUP series on electromagnetic wave theory
Soggetto topico Microonde elettroniche
ISBN 019856533X
0780310179
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISANNIO-MIL0268678
Christopoulos, Christos  
New York, : IEEE
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Tunable Evanescent-Mode Filters : Principles, Implementation, and Applications
Tunable Evanescent-Mode Filters : Principles, Implementation, and Applications
Autore Peroulis Dimitrios
Edizione [1st ed.]
Pubbl/distr/stampa Newark : , : John Wiley & Sons, Incorporated, , 2025
Descrizione fisica 1 online resource (276 pages)
Disciplina 621.38131
Altri autori (Persone) Abu KhaterMohammad
ISBN 1-394-21682-3
1-394-21683-1
1-394-21681-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright -- Contents -- About the Authors -- Preface -- Acknowledgments -- List of Abbreviations -- About the Companion Website -- Part I Principles -- Chapter 1 Background -- 1.1 Introduction -- 1.1.1 Filters Necessity -- 1.1.2 Alternative Filtering Methods -- 1.2 Filter Anatomy and Representation -- 1.2.1 The Basic Coupling Matrix (M Matrix) -- 1.2.2 Coupling‐Routing Diagrams -- 1.2.3 Additions to the Coupling Matrix for Synthesis of Advanced and Practical Filter Responses -- 1.2.3.1 Positive and Negative Coupling Values -- 1.2.3.2 Finite Resonator Quality Factors -- 1.2.3.3 Resonator Frequency Tuning -- 1.2.3.4 Non‐Resonating Nodes -- 1.2.3.5 Complex Impedance Loads -- 1.3 Tunable Resonators in Filters -- 1.3.1 Planar Tunable Resonators -- 1.3.2 Ferrimagnetic Tunable Resonators -- 1.3.3 Evanescent‐Mode 3‐D Tunable Resonators -- Chapter 2 Evanescent‐Mode Resonators -- 2.1 Physical Structure -- 2.2 Analysis -- 2.2.1 Coaxial Cable Approximation -- 2.2.1.1 Unloaded Quality Factor -- 2.2.2 Tapered Resonator Model -- 2.2.2.1 Frequency Tuning Ratio -- 2.2.3 Tuning Range and Quality Factor Co‐optimization -- 2.3 Coupling Techniques -- 2.3.1 External Coupling -- 2.3.2 Inter‐Resonator Coupling -- 2.4 Coupling Values Polarity -- 2.4.1 External Coupling Polarity -- 2.4.2 Inter‐Resonator Coupling Polarity -- 2.5 Advanced Evanescent‐Mode Structures -- 2.5.1 Dual‐Mode Resonators -- 2.5.2 Fractional Mode Resonators -- 2.6 Filter Examples -- 2.6.1 Chebyshev Bandpass Filter -- 2.6.2 Butterworth Bandstop Filter -- Part II Implementation -- Chapter 3 Printed Circuit Board Technology -- 3.1 Evanescent‐Mode Resonator Structure -- 3.1.1 Practical Considerations -- 3.2 Tunable Membrane -- 3.2.1 Piezoelectric Disk Tuners -- 3.2.2 Contactless Mechanical Actuators -- Chapter 4 Silicon Microfabrication -- 4.1 Generic Structure.
4.2 MEMS Tuner Design -- 4.3 Microfabrication Process -- 4.3.1 MEMS Tuner Microfabrication -- 4.3.2 Evanescent‐Mode Resonator Microfabrication -- 4.3.3 Bias Electrode Microfabrication -- 4.3.4 Filter Assembly -- 4.4 Mechanical Model and Power Handling -- Chapter 5 Injection Molding -- 5.1 Manufacturing Technology -- 5.1.1 Device Concept -- 5.1.2 Injection Molding Technology -- 5.1.3 Material Selection -- 5.1.4 Design for Moldability -- 5.2 Resonator and Filter RF Design -- 5.2.1 Resonator -- 5.2.2 Filter -- 5.3 Fabrication and Measurements -- 5.3.1 Resonator -- 5.3.2 Filter Performance Measurements -- 5.3.3 Power Handling -- 5.4 Discussion -- 5.5 Conclusion -- 5.6 How to Choose the Right Manufacturing Technology -- 5.7 How to Choose the Right Actuator for the Filter -- Part III Applications -- Chapter 6 Absorptive Bandstop Filters -- 6.1 Design Principles of Absorptive Filters -- 6.1.1 Analysis of a Two‐Pole Absorptive Bandstop Filter -- 6.1.2 W‐Band Absorptive Bandstop Filter -- 6.1.2.1 Filter Design -- 6.1.2.2 Fabrication and Measurements -- 6.2 Triplet Quasi‐absorptive Topology -- 6.2.1 Quasi‐absorptive Filter Design and Implementation -- 6.2.1.1 Measured Results -- Chapter 7 Bandwidth and Passband Control -- 7.1 Bandwidth Control for Bandpass Filters -- 7.1.1 Filter Design -- 7.1.1.1 Bandwidth Variation -- 7.1.1.2 Quality Factor Impact -- 7.1.1.3 Impedance Matching -- 7.1.1.4 Simulated Results -- 7.1.2 Filter Implementation -- 7.2 BSF Bandwidth Control -- 7.2.1 Constant Bandwidth Coupling Concept -- 7.2.1.1 BW Variation Versus T‐Line Length and Tuning Range -- 7.2.1.2 Phase Variation -- 7.2.2 Constant Bandwidth Filter Design -- 7.2.2.1 External Coupling -- 7.2.2.2 External Coupling Structures: Polarity Design -- 7.2.2.3 Inter‐Resonator Coupling -- 7.2.3 Fabrication and Measurements -- 7.2.3.1 Constant FBW Filter -- 7.2.3.2 Constant ABW Filter.
7.2.3.3 Four‐Pole Filter -- Chapter 8 High‐Order and Fractional‐Order Evanescent‐Mode Filters -- 8.1 High‐Order Evanescent‐Mode Filters -- 8.1.1 Independently Tunable Dual‐Mode Evanescent‐Mode Filter -- 8.1.1.1 Resonator Design -- 8.1.1.2 Filter Design -- 8.1.1.3 Experimental Validation -- 8.1.2 High Selectivity Dual‐Mode Filters -- 8.1.2.1 Resonator Design -- 8.1.2.2 Constant Absolute Bandwidth BPF Filter -- 8.1.2.3 Filter A: Implementation and Validation -- 8.1.2.4 Filter B: Implementation and Validation -- 8.1.2.5 Filter C: Implementation and Validation -- 8.1.2.6 Filter D: Implementation and Validation -- 8.1.3 Four‐Wedge Evanescent‐Mode Resonator -- 8.1.3.1 Bandpass Filter Design -- 8.1.3.2 Design Example -- 8.2 Tunable Half‐Mode SIW Filter -- Chapter 9 Advanced Evanescent‐Mode Filter Structures -- 9.1 Bandpass‐to‐bandstop Reconfigurable Filter -- 9.1.1 Bandpass‐to‐bandstop Filter Theory -- 9.1.1.1 Coupling Structure to Switch M01 and M03 Simultaneously -- 9.1.2 Bandpass‐to‐bandstop Reconfigurable Filter Design -- 9.1.3 Measured Results -- 9.2 Field‐programmable Filter Array -- 9.2.1 Positive‐to‐negative Coupling Structure -- 9.2.2 Response Enhancements Enabled By Positive‐to‐negative Inter‐Resonator Coupling -- 9.2.2.1 Zero Net Coupling State Enhancement Using Destructive Interference -- 9.2.2.2 Local Stopband Attenuation Enhancement Technique -- 9.2.3 Resonator Array Design and Fabrication -- 9.2.4 Measured Results -- Chapter 10 Passive Applications -- 10.1 Impedance Tuner -- 10.1.1 Design and Fabrication -- 10.1.2 Measured Results -- 10.2 Single‐ended (SE) and Balanced (BAL) Diplexers -- 10.2.1 Dual‐Mode Diplexing Concept -- 10.2.1.1 Diplexing Architecture -- 10.2.1.2 Resonant Frequency Misalignment -- 10.2.1.3 Inter‐Resonator Coupling -- 10.2.2 SE-SE Diplexer Implementation and Measurements -- 10.2.2.1 External Coupling.
10.2.2.2 Measured Results -- 10.2.3 SE-BAL Diplexer Implementation and Measurements -- 10.2.3.1 External Coupling -- 10.2.3.2 Measured Results -- 10.2.4 BAL-BAL Diplexer Implementation and Measurements -- 10.2.4.1 External Coupling -- 10.2.4.2 Measured Results -- 10.3 Tunable Filtering Rat‐race Couplers Based on Half‐ and Full‐mode Evanescent‐mode Resonators -- 10.3.1 Design -- 10.3.2 Full‐mode Rat‐race Coupler -- 10.3.2.1 Experimental Validation -- 10.3.3 Half‐mode Rat‐race Coupler -- 10.3.3.1 Half‐mode Structure -- 10.3.3.2 Experimental Validation -- Chapter 11 Active Applications -- 11.1 Co‐Design of Power Amplifiers and High‐Q Filters -- 11.1.1 Filter Design -- 11.1.2 Transistor Characterization -- 11.1.3 Matching Filter Design -- 11.1.3.1 Fundamental and Harmonic Matchings -- 11.1.4 PA Design -- 11.1.5 Experimental Results -- 11.1.6 Co‐Design of PA and Three‐Pole High‐Q Tunable Filter -- 11.2 Phase‐Locked Loop -- 11.2.1 Frequency Synthesizer Architecture and Phase Noise Model -- 11.2.2 Circuit Design and Optimizations -- 11.2.2.1 Evanescent‐Mode Cavity Resonator -- 11.2.2.2 Voltage‐Controlled Oscillator Design -- 11.2.2.3 Phase‐Locked Loop Design -- 11.2.2.4 Measured Results -- 11.3 Balanced-Balanced Tunable Filtering LNA -- 11.3.1 Cavity Resonator‐LNA Co‐Design -- 11.3.1.1 Evanescent‐Mode Resonators -- 11.3.1.2 LNA -- 11.3.2 Implementation and Measured Results -- Chapter 12 Monitoring and Control -- 12.1 Monitoring and Control of PCB‐based Resonators: Diplexer Example -- 12.1.1 System Architecture -- 12.1.1.1 Diplexer -- 12.1.1.2 Resonators Monitoring and Control -- 12.1.1.3 Spectrum Sensing -- 12.1.2 Control Loop Analysis -- 12.1.3 Design Details -- 12.1.3.1 Diplexer Structure -- 12.1.3.2 Oscillator and Frequency Counter -- 12.1.3.3 Control Unit and Charge Pump -- 12.1.4 Implementation and Measurements -- 12.1.4.1 Implementation.
12.1.4.2 Monitoring Performance -- 12.1.4.3 RF Performance -- 12.1.4.4 Spectrum‐aware Measurements -- 12.2 Monitoring and Control of Silicon‐based Filters -- 12.2.1 Monitoring Concepts and Optimizations -- 12.2.1.1 Inductive Proximity Sensing -- 12.2.1.2 Circuit Optimization -- 12.2.1.3 Spiral Inductor -- 12.2.2 Control System Design -- 12.2.3 Testbed Filter Design -- 12.2.4 Implementation and Measurements -- 12.2.4.1 Fabrication -- 12.2.4.2 Sensing Feedback -- 12.2.4.3 Filter Monitoring and Control -- 12.3 Monitoring and Control Applications: Temperature Compensation -- 12.3.1 Temperature Control -- 12.3.1.1 Temperature Compensation System Implementation -- 12.3.1.2 Room Temperature Filter Performance -- 12.3.1.3 Temperature Compensation Performance -- References -- Index -- EULA.
Record Nr. UNINA-9911027076703321
Peroulis Dimitrios  
Newark : , : John Wiley & Sons, Incorporated, , 2025
Materiale a stampa
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Wave propagation : from electrons to photonic crystals and left-handed materials / / Peter Markos, Costa M. Soukoulis
Wave propagation : from electrons to photonic crystals and left-handed materials / / Peter Markos, Costa M. Soukoulis
Autore Markos Peter
Edizione [Course Book]
Pubbl/distr/stampa Princeton, : Princeton University Press, 2008
Descrizione fisica 1 online resource (367 p.)
Disciplina 530.14/1
530.141
621.38131
Altri autori (Persone) SoukoulisC. M
Soggetto topico Electric waves
Electromagnetic waves - Mathematics
Matrices
Wave-motion, Theory of
ISBN 9786612531774
9781680159011
1680159011
9781282531772
1282531778
9781400835676
1400835674
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Frontmatter -- Contents -- Preface -- 1 Transfer Matrix -- 2 Rectangular Potentials -- 3 δ-Function Potential -- 4 Kronig-Penney Model -- 5 Tight Binding Model -- 6 Tight Binding Models of Crystals -- 7 Disordered Models -- 8 Numerical Solution of the Schrödinger Equation -- 9 Transmission and Reflection of Plane Electromagnetic Waves on an Interface -- 10 Transmission and Reflection Coefficients for a Slab -- 11 Surface Waves -- 12 Resonant Tunneling through Double-Layer Structures -- 13 Layered Electromagnetic Medium: Photonic Crystals -- 14 Effective Parameters -- 15 Wave Propagation in Nonlinear Structures -- 16 Left-Handed Materials -- Appendix A. Matrix Operations -- Appendix B. Summary of Electrodynamics Formulas -- Bibliography -- Index
Record Nr. UNINA-9910969955803321
Markos Peter  
Princeton, : Princeton University Press, 2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
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