Lens design basics : optical design problem-solving in theory and practice /

This book gives a comprehensive overview on the principles of optical imaging. The first seven chapters provide an extensive summary of optical design, as well as the mechanisms and interrelations leading to the formation of aberrations and the accompanying decrease in imaging performance. Aside fro...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Gerhard, Christoph, 1977- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2020]
Colección:IOP series in emerging technologies in optics and photonics.
IOP ebooks. 2020 collection.
Temas:
Optical instruments.
Optics.
Optical physics.
SCIENCE / Physics / Optics & Light.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Fundamentals
  • 1.1. Light waves and light rays
  • 1.2. Refraction
  • 1.3. Dispersion
  • 1.4. Reflection
  • 1.5. Absorption and transmission
  • 1.6. Interference
  • 1.7. Diffraction and optical resolution
  • 1.8. Fundamentals--bottom line
  • 2. Introduction to imaging models
  • 2.1. The paraxial or Gaussian imaging model
  • 2.2. Geometric-optical imaging
  • 2.3. Wave optics
  • 2.4. Introduction to imaging models--bottom line
  • 3. Calculation of simple optical components and systems
  • 3.1. Lens types and basic lens parameters
  • 3.2. The lensmaker's equations
  • 3.3. Conjugated parameters of optical imaging
  • 3.4. The imaging equation and magnification
  • 3.5. Calculation of compound lenses
  • 3.6. Condition for achromatism
  • 3.7. Calculation of aplanatic lenses
  • 3.8. Calculation of simple optical systems--bottom line
  • 4. Aberrations and defects in optical systems
  • 4.1. Seidel aberrations
  • 4.2. Chromatic aberration
  • 4.3. Vignetting
  • 4.4. Ghost images
  • 4.5. Wave aberrations
  • 4.6. Contrast and contrast transfer
  • 4.7. Aberrations and defects in optical systems--bottom line
  • 5. Evaluation of imaging performance
  • 5.1. Evaluation graphs
  • 5.2. Tables and data
  • 5.3. Evaluation of imaging performance--bottom line
  • 6. From task to solution
  • 6.1. Basic considerations for lens design
  • 6.2. Optimisation
  • 6.3. Determination of manufacturing tolerances
  • 6.4. From task to solution--bottom line
  • 7. Impact of manufacturing tolerances on imaging performance
  • 7.1. Bulk defects in optical glasses
  • 7.2. Form deviations and surface defects of optical components
  • 7.3. Position tolerances
  • 7.4. Impact of manufacturing tolerances on imaging performance--bottom line
  • 8. Hands-on training
  • 8.1. Introduction to used software
  • 8.2. Exercises.

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