Optical Specification Fabrication and Testing 1st Edition by Jim Schwiegerling ISBN 1628413670 9781628413670

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ISBN 10: 1628413670 
ISBN 13: 9781628413670
Author: Jim Schwiegerling

Optical Specification Fabrication and Testing 1st Table of contents:

• Introduction to Optical Systems and Technologies

  • 1.1 Overview of Optical Engineering

  • 1.2 The Role of Optical Components in Modern Technology

  • 1.3 Key Concepts in Optics: Light, Reflection, Refraction, and Diffraction

  • 1.4 Importance of Specifications in Optical System Design

  • 1.5 Scope and Structure of the Book

• Fundamentals of Optical Design and Specifications

  • 2.1 Key Parameters in Optical Design: Wavelength, Aperture, Focal Length

  • 2.2 Understanding Optical Performance Specifications

  • 2.3 Optical Aberrations and Their Impact on System Performance

  • 2.4 Material Properties for Optical Components: Glasses, Crystals, and Coatings

  • 2.5 Defining Tolerances and Error Margins in Optical Systems

• Optical Materials and Component Selection

  • 3.1 Types of Optical Materials: Glass, Quartz, and Plastics

  • 3.2 Material Properties: Refractive Index, Dispersion, and Transmission Characteristics

  • 3.3 Choosing the Right Material for Specific Optical Applications

  • 3.4 Optical Coatings and Thin Films: Enhancing Performance and Durability

  • 3.5 Custom Materials: Emerging Trends and Innovations

• Fabrication of Optical Components

  • 4.1 Optical Component Manufacturing Techniques: Grinding, Polishing, and Molding

  • 4.2 CNC and Precision Machining for Optical Components

  • 4.3 Aspheric Lens Fabrication and Challenges

  • 4.4 Achieving Surface Quality: Smoothness, Flatness, and Optical Finish

  • 4.5 Fabrication of Mirrors, Prisms, and Lenses

  • 4.6 Automation and Advancements in Optical Component Production

• Testing and Quality Control of Optical Components

  • 5.1 The Role of Testing in Optical Component Manufacturing

  • 5.2 Common Testing Methods: Interferometry, Fizeau, and Hartmann Shack Sensors

  • 5.3 Measuring Surface Flatness and Shape Accuracy

  • 5.4 Optical Profilometry: 3D Surface Measurement Techniques

  • 5.5 Testing for Transmittance, Reflectance, and Absorption

  • 5.6 Ensuring Material Integrity: Stress, Strain, and Durability Testing

• Assembly and Alignment of Optical Systems

  • 6.1 Principles of Optical System Assembly

  • 6.2 Alignment of Lenses, Mirrors, and Other Optical Components

  • 6.3 Achieving Optical Performance: Adjustments and Fine-Tuning

  • 6.4 Using Optical Mounts and Fixtures for Precise Alignment

  • 6.5 Common Alignment Errors and How to Avoid Them

• Optical Testing: Techniques and Instruments

  • 7.1 Overview of Optical Testing Equipment

  • 7.2 Interferometers and Their Role in Measuring Optical Quality

  • 7.3 Optical Bench and Setup for System Performance Testing

  • 7.4 Characterizing Image Quality: Modulation Transfer Function (MTF)

  • 7.5 Aberration Testing and Evaluation: Spherical, Coma, Astigmatism

  • 7.6 Environmental Testing: Temperature, Humidity, and Vibration Effects

• Advanced Optical Fabrication Techniques

  • 8.1 Precision Fabrication Methods: Single-Point Diamond Turning and Lithography

  • 8.2 Freeform Optics: Fabrication and Design Challenges

  • 8.3 Metrology in Precision Optical Fabrication

  • 8.4 Nanofabrication and the Future of Optical Manufacturing

  • 8.5 3D Printing and Additive Manufacturing in Optical Systems

• Optical Performance Analysis and Optimization

  • 9.1 Techniques for Evaluating Optical Performance: Simulation and Practical Testing

  • 9.2 Optimizing for Aberrations: Strategies in Optical Design

  • 9.3 Ray Tracing and Computational Analysis in Optical Design

  • 9.4 Sensitivity Analysis and Tolerance Budgeting in Optical Systems

  • 9.5 Performance Trade-offs: Cost vs. Optical Quality

• Quality Assurance and Final Inspection

  • 10.1 Defining Quality Assurance in Optical Manufacturing

  • 10.2 Standardizing Inspection Procedures and Documentation

  • 10.3 ISO Standards and Industry Certifications for Optical Components

  • 10.4 Statistical Process Control (SPC) and Six Sigma in Optical Fabrication

  • 10.5 Final Inspection Criteria: Pass/Fail Metrics for Optical Products

• Applications of Optical Components and Systems

  • 11.1 Optical Systems in Imaging: Cameras, Microscopes, and Telescopes

  • 11.2 Optical Components in Telecommunications and Fiber Optics

  • 11.3 Laser Systems: Design, Fabrication, and Testing

  • 11.4 Medical Optics: Endoscopes, Ophthalmic Devices, and Imaging Systems

  • 11.5 Industrial and Consumer Applications: Sensors, Projectors, and Displays

• Challenges in Optical Specification and Fabrication

  • 12.1 Overcoming Fabrication Limitations: Precision and Material Constraints

  • 12.2 Environmental Factors: Thermal and Mechanical Stress

  • 12.3 Dealing with Tolerances and Variability in Mass Production

  • 12.4 Managing Cost and Time in Optical Fabrication Projects

  • 12.5 Innovation in Optics: Future Challenges and Opportunities

• Future Trends in Optical Fabrication and Testing

  • 13.1 Emerging Materials and Nanotechnology in Optical Systems

  • 13.2 The Role of AI and Machine Learning in Optical Design and Testing

  • 13.3 Automation and Robotics in Optical Component Manufacturing

  • 13.4 Quantum Optics and the Future of High-Precision Testing

  • 13.5 Sustainability in Optical Manufacturing: Green Technologies and Practices

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Tags: Jim Schwiegerling, Fabrication, Optical Specification