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Fundamentals of optical waveguides [[electronic resource] /] / Katsunari Okamoto
| Fundamentals of optical waveguides [[electronic resource] /] / Katsunari Okamoto |
| Autore | Okamoto Katsunari <1949-> |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, c2006 |
| Descrizione fisica | 1 online resource (578 p.) |
| Disciplina | 621.36/9 |
| Soggetto topico |
Optical wave guides
Integrated optics |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-63358-1
9786610633586 0-08-045506-9 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
front cover; copyright; table of contents; front matter; Preface to the First Edition; Preface to the Second Edition; body; 1 Wave Theory of Optical Waveguides; 1.1. WAVEGUIDE STRUCTURE; 1.2. FORMATION OF GUIDED MODES; 1.3. MAXWELL'S EQUATIONS; 1.4. PROPAGATING POWER; Chapter 1 REFERENCES; 2 Planar Optical Waveguides; 2.1. SLAB WAVEGUIDES; 2.1.1. Derivation of Basic Equations; 2.1.2. Dispersion Equations for TE and TM Modes; 2.1.3. Computation of Propagation Constant; 2.1.4. Electric Field Distribution; 2.1.5. Dispersion Equation for TM Mode; 2.2. RECTANGULAR WAVEGUIDES
2.2.1. Basic Equations2.2.2. Dispersion Equations for Expq and Eypq Modes; 2.2.3. Kumar's Method; 2.2.4. Effective Index Method; 2.3. RADIATION FIELD FROM WAVEGUIDE; 2.3.1. Fresnel and Fraunhofer Regions; 2.3.2. Radiation Pattern of Gaussian Beam; 2.4. MULTIMODE INTERFERENCE (MMI) DEVICE; Chapter 2 REFERENCES; 3 Optical Fibers; 3.1. BASIC EQUATIONS; 3.2. WAVE THEORY OF STEP-INDEX FIBERS; 3.2.1. TE Modes; 3.2.2. TM Modes; 3.2.3. Hybrid Modes; 3.3. OPTICAL POWER CARRIED BY EACH MODE; 3.3.1. TE Modes; 3.3.2. TM Modes; 3.3.3. Hybrid Modes; 3.4. LINEARLY POLARIZED (LP) MODES 3.4.1. Unified Dispersion Equation for LP Modes3.4.2. Dispersion Characteristics of LP Modes; 3.4.3. Propagating Power of LP Modes; 3.5. FUNDAMENTAL HE11 MODE; 3.6. DISPERSION CHARACTERISTICS OF STEP-INDEX FIBERS; 3.6.1. Signal Distortion Caused by Group Velocity Dispersion; 3.6.2. Mechanisms Causing Dispersion; 3.6.3. Derivation of Delay-time Formula; 3.6.4. Chromatic Dispersion; 3.6.5. Zero-dispersion Wavelength; 3.7. WAVE THEORY OF GRADED-INDEX FIBERS; 3.7.1. Basic Equations and Mode Concepts in Graded- index Fibers; 3.7.2. Analysis of Graded-index Fibers by the WKB Method 3.7.3. Dispersion Characteristics of Graded-index Fibers3.8. RELATION BETWEEN DISPERSION AND TRANSMISSION CAPACITY; 3.8.1. Multimode Fiber; 3.8.2. Single-mode Fiber; 3.9. BIREFRINGENT OPTICAL FIBERS; 3.9.1. Two Orthogonally-polarized Modes in Nominally Single-mode Fibers; 3.9.2. Derivation of Basic Equations; 3.9.3. Elliptical-core Fibers; 3.9.4. Modal Birefringence; 3.9.5. Polarization Mode Dispersion; 3.10. DISPERSION CONTROL IN SINGLE-MODE OPTICAL FIBERS; 3.10.1. Dispersion Compensating Fibers; 3.10.2. Dispersion-shifted Fibers; 3.10.3. Dispersion Flattened Fibers 3.10.4. Broadly Dispersion Compensating Fibers3.11. PHOTONIC CRYSTAL FIBERS; Appendix 3A Vector wave equations in graded-index fibers; Appendix 3B Derivation of equation (3.219); Chapter 3 REFERENCES; 4 Coupled Mode Theory; 4.1. DERIVATION OF COUPLED MODE EQUATIONS BASED ON PERTURBATION THEORY; 4.2. CODIRECTIONAL COUPLERS; 4.3. CONTRADIRECTIONAL COUPLING IN CORRUGATED WAVEGUIDES; 4.3.1. Transmission and Reflection Characteristics in Uniform Gratings; 4.3.2. Phase-shift Grating; 4.4. DERIVATION OF COUPLING COEFFICIENTS; 4.4.1. Coupling Coefficients for Slab Waveguides 4.4.2. Coupling Coefficients for Rectangular Waveguides |
| Record Nr. | UNINA-9910458078903321 |
Okamoto Katsunari <1949->
|
||
| Amsterdam ; ; Boston, : Elsevier, c2006 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Fundamentals of optical waveguides [[electronic resource] /] / Katsunari Okamoto
| Fundamentals of optical waveguides [[electronic resource] /] / Katsunari Okamoto |
| Autore | Okamoto Katsunari <1949-> |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, c2006 |
| Descrizione fisica | 1 online resource (578 p.) |
| Disciplina | 621.36/9 |
| Soggetto topico |
Optical wave guides
Integrated optics |
| ISBN |
1-280-63358-1
9786610633586 0-08-045506-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
front cover; copyright; table of contents; front matter; Preface to the First Edition; Preface to the Second Edition; body; 1 Wave Theory of Optical Waveguides; 1.1. WAVEGUIDE STRUCTURE; 1.2. FORMATION OF GUIDED MODES; 1.3. MAXWELL'S EQUATIONS; 1.4. PROPAGATING POWER; Chapter 1 REFERENCES; 2 Planar Optical Waveguides; 2.1. SLAB WAVEGUIDES; 2.1.1. Derivation of Basic Equations; 2.1.2. Dispersion Equations for TE and TM Modes; 2.1.3. Computation of Propagation Constant; 2.1.4. Electric Field Distribution; 2.1.5. Dispersion Equation for TM Mode; 2.2. RECTANGULAR WAVEGUIDES
2.2.1. Basic Equations2.2.2. Dispersion Equations for Expq and Eypq Modes; 2.2.3. Kumar's Method; 2.2.4. Effective Index Method; 2.3. RADIATION FIELD FROM WAVEGUIDE; 2.3.1. Fresnel and Fraunhofer Regions; 2.3.2. Radiation Pattern of Gaussian Beam; 2.4. MULTIMODE INTERFERENCE (MMI) DEVICE; Chapter 2 REFERENCES; 3 Optical Fibers; 3.1. BASIC EQUATIONS; 3.2. WAVE THEORY OF STEP-INDEX FIBERS; 3.2.1. TE Modes; 3.2.2. TM Modes; 3.2.3. Hybrid Modes; 3.3. OPTICAL POWER CARRIED BY EACH MODE; 3.3.1. TE Modes; 3.3.2. TM Modes; 3.3.3. Hybrid Modes; 3.4. LINEARLY POLARIZED (LP) MODES 3.4.1. Unified Dispersion Equation for LP Modes3.4.2. Dispersion Characteristics of LP Modes; 3.4.3. Propagating Power of LP Modes; 3.5. FUNDAMENTAL HE11 MODE; 3.6. DISPERSION CHARACTERISTICS OF STEP-INDEX FIBERS; 3.6.1. Signal Distortion Caused by Group Velocity Dispersion; 3.6.2. Mechanisms Causing Dispersion; 3.6.3. Derivation of Delay-time Formula; 3.6.4. Chromatic Dispersion; 3.6.5. Zero-dispersion Wavelength; 3.7. WAVE THEORY OF GRADED-INDEX FIBERS; 3.7.1. Basic Equations and Mode Concepts in Graded- index Fibers; 3.7.2. Analysis of Graded-index Fibers by the WKB Method 3.7.3. Dispersion Characteristics of Graded-index Fibers3.8. RELATION BETWEEN DISPERSION AND TRANSMISSION CAPACITY; 3.8.1. Multimode Fiber; 3.8.2. Single-mode Fiber; 3.9. BIREFRINGENT OPTICAL FIBERS; 3.9.1. Two Orthogonally-polarized Modes in Nominally Single-mode Fibers; 3.9.2. Derivation of Basic Equations; 3.9.3. Elliptical-core Fibers; 3.9.4. Modal Birefringence; 3.9.5. Polarization Mode Dispersion; 3.10. DISPERSION CONTROL IN SINGLE-MODE OPTICAL FIBERS; 3.10.1. Dispersion Compensating Fibers; 3.10.2. Dispersion-shifted Fibers; 3.10.3. Dispersion Flattened Fibers 3.10.4. Broadly Dispersion Compensating Fibers3.11. PHOTONIC CRYSTAL FIBERS; Appendix 3A Vector wave equations in graded-index fibers; Appendix 3B Derivation of equation (3.219); Chapter 3 REFERENCES; 4 Coupled Mode Theory; 4.1. DERIVATION OF COUPLED MODE EQUATIONS BASED ON PERTURBATION THEORY; 4.2. CODIRECTIONAL COUPLERS; 4.3. CONTRADIRECTIONAL COUPLING IN CORRUGATED WAVEGUIDES; 4.3.1. Transmission and Reflection Characteristics in Uniform Gratings; 4.3.2. Phase-shift Grating; 4.4. DERIVATION OF COUPLING COEFFICIENTS; 4.4.1. Coupling Coefficients for Slab Waveguides 4.4.2. Coupling Coefficients for Rectangular Waveguides |
| Record Nr. | UNINA-9910784568003321 |
|
Okamoto Katsunari <1949->
|
||
| Amsterdam ; ; Boston, : Elsevier, c2006 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Fundamentals of optical waveguides / / Katsunari Okamoto
| Fundamentals of optical waveguides / / Katsunari Okamoto |
| Autore | Okamoto Katsunari <1949-> |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, c2006 |
| Descrizione fisica | 1 online resource (578 p.) |
| Disciplina | 621.36/9 |
| Soggetto topico |
Optical wave guides
Integrated optics |
| ISBN |
1-280-63358-1
9786610633586 0-08-045506-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
front cover; copyright; table of contents; front matter; Preface to the First Edition; Preface to the Second Edition; body; 1 Wave Theory of Optical Waveguides; 1.1. WAVEGUIDE STRUCTURE; 1.2. FORMATION OF GUIDED MODES; 1.3. MAXWELL'S EQUATIONS; 1.4. PROPAGATING POWER; Chapter 1 REFERENCES; 2 Planar Optical Waveguides; 2.1. SLAB WAVEGUIDES; 2.1.1. Derivation of Basic Equations; 2.1.2. Dispersion Equations for TE and TM Modes; 2.1.3. Computation of Propagation Constant; 2.1.4. Electric Field Distribution; 2.1.5. Dispersion Equation for TM Mode; 2.2. RECTANGULAR WAVEGUIDES
2.2.1. Basic Equations2.2.2. Dispersion Equations for Expq and Eypq Modes; 2.2.3. Kumar's Method; 2.2.4. Effective Index Method; 2.3. RADIATION FIELD FROM WAVEGUIDE; 2.3.1. Fresnel and Fraunhofer Regions; 2.3.2. Radiation Pattern of Gaussian Beam; 2.4. MULTIMODE INTERFERENCE (MMI) DEVICE; Chapter 2 REFERENCES; 3 Optical Fibers; 3.1. BASIC EQUATIONS; 3.2. WAVE THEORY OF STEP-INDEX FIBERS; 3.2.1. TE Modes; 3.2.2. TM Modes; 3.2.3. Hybrid Modes; 3.3. OPTICAL POWER CARRIED BY EACH MODE; 3.3.1. TE Modes; 3.3.2. TM Modes; 3.3.3. Hybrid Modes; 3.4. LINEARLY POLARIZED (LP) MODES 3.4.1. Unified Dispersion Equation for LP Modes3.4.2. Dispersion Characteristics of LP Modes; 3.4.3. Propagating Power of LP Modes; 3.5. FUNDAMENTAL HE11 MODE; 3.6. DISPERSION CHARACTERISTICS OF STEP-INDEX FIBERS; 3.6.1. Signal Distortion Caused by Group Velocity Dispersion; 3.6.2. Mechanisms Causing Dispersion; 3.6.3. Derivation of Delay-time Formula; 3.6.4. Chromatic Dispersion; 3.6.5. Zero-dispersion Wavelength; 3.7. WAVE THEORY OF GRADED-INDEX FIBERS; 3.7.1. Basic Equations and Mode Concepts in Graded- index Fibers; 3.7.2. Analysis of Graded-index Fibers by the WKB Method 3.7.3. Dispersion Characteristics of Graded-index Fibers3.8. RELATION BETWEEN DISPERSION AND TRANSMISSION CAPACITY; 3.8.1. Multimode Fiber; 3.8.2. Single-mode Fiber; 3.9. BIREFRINGENT OPTICAL FIBERS; 3.9.1. Two Orthogonally-polarized Modes in Nominally Single-mode Fibers; 3.9.2. Derivation of Basic Equations; 3.9.3. Elliptical-core Fibers; 3.9.4. Modal Birefringence; 3.9.5. Polarization Mode Dispersion; 3.10. DISPERSION CONTROL IN SINGLE-MODE OPTICAL FIBERS; 3.10.1. Dispersion Compensating Fibers; 3.10.2. Dispersion-shifted Fibers; 3.10.3. Dispersion Flattened Fibers 3.10.4. Broadly Dispersion Compensating Fibers3.11. PHOTONIC CRYSTAL FIBERS; Appendix 3A Vector wave equations in graded-index fibers; Appendix 3B Derivation of equation (3.219); Chapter 3 REFERENCES; 4 Coupled Mode Theory; 4.1. DERIVATION OF COUPLED MODE EQUATIONS BASED ON PERTURBATION THEORY; 4.2. CODIRECTIONAL COUPLERS; 4.3. CONTRADIRECTIONAL COUPLING IN CORRUGATED WAVEGUIDES; 4.3.1. Transmission and Reflection Characteristics in Uniform Gratings; 4.3.2. Phase-shift Grating; 4.4. DERIVATION OF COUPLING COEFFICIENTS; 4.4.1. Coupling Coefficients for Slab Waveguides 4.4.2. Coupling Coefficients for Rectangular Waveguides |
| Record Nr. | UNINA-9910816956403321 |
|
Okamoto Katsunari <1949->
|
||
| Amsterdam ; ; Boston, : Elsevier, c2006 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||