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Handbook of optical and laser scanning / / edited by Gerald F. Marshall
| Handbook of optical and laser scanning / / edited by Gerald F. Marshall |
| Pubbl/distr/stampa | New York : , : Marcel Dekker, , 2004 |
| Descrizione fisica | 1 online resource (891 p.) |
| Disciplina |
006.6/2
621.36/7 |
| Altri autori (Persone) | MarshallGerald F |
| Collana | Optical Engineering |
| Soggetto topico |
Lasers
Optical scanners Scanning systems Imaging systems Laser recording |
| ISBN |
0-429-13918-7
1-281-09494-3 9786611094942 0-203-97057-8 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Book Cover; Half-Title; Title; Copyright; Dedication; Preface; Acknowledgments; Contents; Contributors; 1. Characterization of Laser Beams: The M2 Model; 2. Optical Systems for Laser Scanners; 3. Image Quality for Scanning; 4. Polygonal Scanners: Components, Performance, and Design; 5. Motors and Controllers (Drivers) for High-Performance Polygonal Scanners; 6. Bearings for Rotary Scanners; 7. Preobjective Polygonal Scanning; 8. Galvanometric and Resonant Scanners; 9. Flexure Pivots for Oscillatory Scanners; 10. Holographic Barcode Scanners: Applications, Performance, and Design
11. Optical Disk Scanning Technology12. Acousto-Optic Scanners and Modulators; 13. Electro-Optical Scanners; 14. Multichannel Laser Thermal Printhead Technology; Glossary; Index |
| Record Nr. | UNINA-9910477205903321 |
| New York : , : Marcel Dekker, , 2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Realistic Ray Tracing / / by Peter Shirley and R. Keith Morley
| Realistic Ray Tracing / / by Peter Shirley and R. Keith Morley |
| Autore | Shirley Peter |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Boca Raton, FL : , : Taylor and Francis, an imprint of A K Peters/CRC Press, , 2003 |
| Descrizione fisica | 1 online resource (xv, 225 pages : illustrations |
| Disciplina | 006.6/2 |
| Soggetto topico | Computer graphics |
| Soggetto genere / forma | Electronic books. |
| ISBN |
0-429-29489-1
1-4398-6444-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910454402703321 |
Shirley Peter
|
||
| Boca Raton, FL : , : Taylor and Francis, an imprint of A K Peters/CRC Press, , 2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Realistic Ray Tracing / / by Peter Shirley and R. Keith Morley
| Realistic Ray Tracing / / by Peter Shirley and R. Keith Morley |
| Autore | Shirley Peter |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Boca Raton, FL : , : Taylor and Francis, an imprint of A K Peters/CRC Press, , 2003 |
| Descrizione fisica | 1 online resource (xv, 225 pages : illustrations |
| Disciplina | 006.6/2 |
| Soggetto topico | Computer graphics |
| ISBN |
0-429-29489-1
1-4398-6444-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910782044503321 |
|
Shirley Peter
|
||
| Boca Raton, FL : , : Taylor and Francis, an imprint of A K Peters/CRC Press, , 2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Unified optical scanning technology [[electronic resource] /] / Leo Beiser
| Unified optical scanning technology [[electronic resource] /] / Leo Beiser |
| Autore | Beiser Leo |
| Pubbl/distr/stampa | New York, : Wiley-Interscience, c2003 |
| Descrizione fisica | 1 online resource (201 p.) |
| Disciplina |
006.6/2
621.3827 |
| Soggetto topico |
Optical scanners
Optical storage devices |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-25278-2
9786610252787 0-470-31080-4 0-471-43141-9 0-471-72373-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
UNIFIED OPTICAL SCANNING TECHNOLOGY; CONTENTS; Preface; 1 INTRODUCTION-TECHNOLOGY OVERVIEW AND UNIFYING PRINCIPLES; 1.1 Optical Scanning Characteristics and Disciplines; 1.2 Active and Passive Scanning; 1.2.1 Conjugate Image Representations; 1.2.2 Retroreflection and Double-Pass Systems; 1.3 Input, Output, and Remote Sensing Systems; 1.4 Optical and Resolution Invariants; Optical Transfer; 1.5 System Architecture; 1.5.1 Objective Lens Relationships; 2 SCANNING THEORY AND PROCESSES; 2.1 The Point Spread Function and Its Convolution; 2.1.1 PSF Developed from Uniform Illumination of an Aperture
2.1.2 PSF Developed from Aperture Illumination with a Gaussian Distribution2.1.3 Scanning-Controlled Movement of the PSF; Its Convolution; 2.2 Quantized or Digitized Scan; 2.2.1 The Sampling Criterion; 2.3 Gaussian Beam Propagation; 2.3.1 Representation and Development of the Gaussian Beam; 2.3.2 Gaussian Beam Focusing Characteristics; 2.4 Scanned Quality Criteria and the Modulation Transfer Function; 2.4.1 The Fourier Transform; 2.4.2 The Modulation Transfer Function; 3 SCANNED RESOLUTION; 3.1 Influence and Significance of Scanned Resolution; 3.1.1 Basis of Scanned Resolution 3.1.2 Resolution Nomograph3.2 Aperture Shape Factor; 3.2.1 Uniformly Illuminated Apertures; 3.2.2 Summary of Aperture Shape Factors; 3.3 The Resolution Equation, the Resolution Invariant, and Beam Propagation; 3.3.1 Propagation of Noise and Error Components; 3.4 Augmented Resolution; 3.4.1 Radial Symmetry and Scan Magnification; 3.4.2 Augmented Resolution for Holographic Scanners; 3.5 Resolution in Passive and Remote Sensing Systems; 4 SCANNER DEVICES AND TECHNIQUES; 4.1 Scanning Technology Organization; 4.2 High-Inertia Scanning; 4.3 Rotating Polygons 4.3.1 Distinctions Between Pyramidal and Prismatic Polygons4.3.2 Duty Cycle; 4.3.3 Over- and Underillumination (Over- and Underfilling) of the Facet; 4.3.4 Facet Tracking; 4.3.5 Design Considerations; 4.3.6 Passive Scanning for Remote Sensing; 4.4 Holographic Scanners; 4.4.1 Scanner Configurations and Characteristics; 4.4.2 Implementation of Holographic Scanners; 4.5 Oscillatory (Vibrational) Scanners; 4.5.1 The Galvanometric Scanner; 4.5.2 The Resonant Scanner; 4.5.3 Suspension Systems and Position Control; 4.5.4 The Fast-Steering Mirror; 4.5.5 The Fiber Optic Scanner 4.6 Scanner-Lens Relationships4.6.1 Scanner-Lens Architecture; 4.6.2 Double-Pass Architecture; 4.6.3 Aperture Relaying; 4.6.4 Lens Relationships for Control of Deflection Error; 4.7 Low-Inertia Scanning; 4.8 Acoustooptic Scanners; 4.8.1 Operating Principles; 4.8.2 Fundamental Characteristics; 4.8.3 Alternate Acoustooptic Deflection Techniques; 4.9 Electrooptic (Gradient) Scanners; 4.9.1 Implementation Methods; 4.9.2 Drive Power; 4.10 Agile Beam Steering; 4.10.1 Phased Array Technology; 4.10.2 Decentered Microlens Arrays; 4.10.3 Summary of Agile Beam Steering 5 CONTROL OF SCANNER BEAM MISPLACEMENT |
| Record Nr. | UNINA-9910146071803321 |
|
Beiser Leo
|
||
| New York, : Wiley-Interscience, c2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Unified optical scanning technology [[electronic resource] /] / Leo Beiser
| Unified optical scanning technology [[electronic resource] /] / Leo Beiser |
| Autore | Beiser Leo |
| Pubbl/distr/stampa | New York, : Wiley-Interscience, c2003 |
| Descrizione fisica | 1 online resource (201 p.) |
| Disciplina |
006.6/2
621.3827 |
| Soggetto topico |
Optical scanners
Optical storage devices |
| ISBN |
1-280-25278-2
9786610252787 0-470-31080-4 0-471-43141-9 0-471-72373-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
UNIFIED OPTICAL SCANNING TECHNOLOGY; CONTENTS; Preface; 1 INTRODUCTION-TECHNOLOGY OVERVIEW AND UNIFYING PRINCIPLES; 1.1 Optical Scanning Characteristics and Disciplines; 1.2 Active and Passive Scanning; 1.2.1 Conjugate Image Representations; 1.2.2 Retroreflection and Double-Pass Systems; 1.3 Input, Output, and Remote Sensing Systems; 1.4 Optical and Resolution Invariants; Optical Transfer; 1.5 System Architecture; 1.5.1 Objective Lens Relationships; 2 SCANNING THEORY AND PROCESSES; 2.1 The Point Spread Function and Its Convolution; 2.1.1 PSF Developed from Uniform Illumination of an Aperture
2.1.2 PSF Developed from Aperture Illumination with a Gaussian Distribution2.1.3 Scanning-Controlled Movement of the PSF; Its Convolution; 2.2 Quantized or Digitized Scan; 2.2.1 The Sampling Criterion; 2.3 Gaussian Beam Propagation; 2.3.1 Representation and Development of the Gaussian Beam; 2.3.2 Gaussian Beam Focusing Characteristics; 2.4 Scanned Quality Criteria and the Modulation Transfer Function; 2.4.1 The Fourier Transform; 2.4.2 The Modulation Transfer Function; 3 SCANNED RESOLUTION; 3.1 Influence and Significance of Scanned Resolution; 3.1.1 Basis of Scanned Resolution 3.1.2 Resolution Nomograph3.2 Aperture Shape Factor; 3.2.1 Uniformly Illuminated Apertures; 3.2.2 Summary of Aperture Shape Factors; 3.3 The Resolution Equation, the Resolution Invariant, and Beam Propagation; 3.3.1 Propagation of Noise and Error Components; 3.4 Augmented Resolution; 3.4.1 Radial Symmetry and Scan Magnification; 3.4.2 Augmented Resolution for Holographic Scanners; 3.5 Resolution in Passive and Remote Sensing Systems; 4 SCANNER DEVICES AND TECHNIQUES; 4.1 Scanning Technology Organization; 4.2 High-Inertia Scanning; 4.3 Rotating Polygons 4.3.1 Distinctions Between Pyramidal and Prismatic Polygons4.3.2 Duty Cycle; 4.3.3 Over- and Underillumination (Over- and Underfilling) of the Facet; 4.3.4 Facet Tracking; 4.3.5 Design Considerations; 4.3.6 Passive Scanning for Remote Sensing; 4.4 Holographic Scanners; 4.4.1 Scanner Configurations and Characteristics; 4.4.2 Implementation of Holographic Scanners; 4.5 Oscillatory (Vibrational) Scanners; 4.5.1 The Galvanometric Scanner; 4.5.2 The Resonant Scanner; 4.5.3 Suspension Systems and Position Control; 4.5.4 The Fast-Steering Mirror; 4.5.5 The Fiber Optic Scanner 4.6 Scanner-Lens Relationships4.6.1 Scanner-Lens Architecture; 4.6.2 Double-Pass Architecture; 4.6.3 Aperture Relaying; 4.6.4 Lens Relationships for Control of Deflection Error; 4.7 Low-Inertia Scanning; 4.8 Acoustooptic Scanners; 4.8.1 Operating Principles; 4.8.2 Fundamental Characteristics; 4.8.3 Alternate Acoustooptic Deflection Techniques; 4.9 Electrooptic (Gradient) Scanners; 4.9.1 Implementation Methods; 4.9.2 Drive Power; 4.10 Agile Beam Steering; 4.10.1 Phased Array Technology; 4.10.2 Decentered Microlens Arrays; 4.10.3 Summary of Agile Beam Steering 5 CONTROL OF SCANNER BEAM MISPLACEMENT |
| Record Nr. | UNINA-9910830651903321 |
|
Beiser Leo
|
||
| New York, : Wiley-Interscience, c2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Unified optical scanning technology / / Leo Beiser
| Unified optical scanning technology / / Leo Beiser |
| Autore | Beiser Leo |
| Pubbl/distr/stampa | New York, : Wiley-Interscience, c2003 |
| Descrizione fisica | 1 online resource (201 p.) |
| Disciplina | 006.6/2 |
| Soggetto topico |
Optical scanners
Optical storage devices |
| ISBN |
9786610252787
9781280252785 1280252782 9780470310809 0470310804 9780471431411 0471431419 9780471723738 0471723738 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
UNIFIED OPTICAL SCANNING TECHNOLOGY; CONTENTS; Preface; 1 INTRODUCTION-TECHNOLOGY OVERVIEW AND UNIFYING PRINCIPLES; 1.1 Optical Scanning Characteristics and Disciplines; 1.2 Active and Passive Scanning; 1.2.1 Conjugate Image Representations; 1.2.2 Retroreflection and Double-Pass Systems; 1.3 Input, Output, and Remote Sensing Systems; 1.4 Optical and Resolution Invariants; Optical Transfer; 1.5 System Architecture; 1.5.1 Objective Lens Relationships; 2 SCANNING THEORY AND PROCESSES; 2.1 The Point Spread Function and Its Convolution; 2.1.1 PSF Developed from Uniform Illumination of an Aperture
2.1.2 PSF Developed from Aperture Illumination with a Gaussian Distribution2.1.3 Scanning-Controlled Movement of the PSF; Its Convolution; 2.2 Quantized or Digitized Scan; 2.2.1 The Sampling Criterion; 2.3 Gaussian Beam Propagation; 2.3.1 Representation and Development of the Gaussian Beam; 2.3.2 Gaussian Beam Focusing Characteristics; 2.4 Scanned Quality Criteria and the Modulation Transfer Function; 2.4.1 The Fourier Transform; 2.4.2 The Modulation Transfer Function; 3 SCANNED RESOLUTION; 3.1 Influence and Significance of Scanned Resolution; 3.1.1 Basis of Scanned Resolution 3.1.2 Resolution Nomograph3.2 Aperture Shape Factor; 3.2.1 Uniformly Illuminated Apertures; 3.2.2 Summary of Aperture Shape Factors; 3.3 The Resolution Equation, the Resolution Invariant, and Beam Propagation; 3.3.1 Propagation of Noise and Error Components; 3.4 Augmented Resolution; 3.4.1 Radial Symmetry and Scan Magnification; 3.4.2 Augmented Resolution for Holographic Scanners; 3.5 Resolution in Passive and Remote Sensing Systems; 4 SCANNER DEVICES AND TECHNIQUES; 4.1 Scanning Technology Organization; 4.2 High-Inertia Scanning; 4.3 Rotating Polygons 4.3.1 Distinctions Between Pyramidal and Prismatic Polygons4.3.2 Duty Cycle; 4.3.3 Over- and Underillumination (Over- and Underfilling) of the Facet; 4.3.4 Facet Tracking; 4.3.5 Design Considerations; 4.3.6 Passive Scanning for Remote Sensing; 4.4 Holographic Scanners; 4.4.1 Scanner Configurations and Characteristics; 4.4.2 Implementation of Holographic Scanners; 4.5 Oscillatory (Vibrational) Scanners; 4.5.1 The Galvanometric Scanner; 4.5.2 The Resonant Scanner; 4.5.3 Suspension Systems and Position Control; 4.5.4 The Fast-Steering Mirror; 4.5.5 The Fiber Optic Scanner 4.6 Scanner-Lens Relationships4.6.1 Scanner-Lens Architecture; 4.6.2 Double-Pass Architecture; 4.6.3 Aperture Relaying; 4.6.4 Lens Relationships for Control of Deflection Error; 4.7 Low-Inertia Scanning; 4.8 Acoustooptic Scanners; 4.8.1 Operating Principles; 4.8.2 Fundamental Characteristics; 4.8.3 Alternate Acoustooptic Deflection Techniques; 4.9 Electrooptic (Gradient) Scanners; 4.9.1 Implementation Methods; 4.9.2 Drive Power; 4.10 Agile Beam Steering; 4.10.1 Phased Array Technology; 4.10.2 Decentered Microlens Arrays; 4.10.3 Summary of Agile Beam Steering 5 CONTROL OF SCANNER BEAM MISPLACEMENT |
| Record Nr. | UNINA-9911019910603321 |
|
Beiser Leo
|
||
| New York, : Wiley-Interscience, c2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||