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Optical Engineering publishes peer-reviewed articles reporting on research, development, and applications of optics and photonics.Primary topical areas include: imaging components, systems, and processing; optical instrumentation, techniques, and measurement; optical design and engineering; lasers, fiber optics, and communications; and optical materials, photonic devices, and sensors.
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Preface
Introduction
1 The Basics
1.1 Ray Calculations
1.1.1 Law of refraction: Snell's law
1.1.2 Law of reflection
1.1.3 The transfer equations
1.2 Lenses
1.3 Imaging
1.4 Types of Images
2 Rays and Ray Sketching
2.1 Collimation
2.2 Thin Lenses
2.3 Ray Sketching
2.3.1 Finite object distance
2.3.2 Object at infinity
2.4 Treating Virtual Images
2.5 Mirrors
2.6 Planar Optics
2.7 Multiple Elements
2.8 Beyond Two-Lens Systems
First Hiatus: Ledgers to Laptops
3 How to Put a Lens in a Computer
3.1 System Data
3.2 Prescription Data
3.3 Entering a Single Lens Using Commands
3.4 Entering a Single Lens Using the Lens Design Manager
3.5 Checking the Lens
3.5.1 Reduction Ratio
3.6 Angle Solves
3.7 Entering Mirrors
4 To First Order…
4.1 Principal Surfaces and Planes
4.2 What Does This Get You
4.3 Cardinal Points
4.4 Immersed Systems
4.4.1 Nodal points for immersed systems
4.4.2 The human eye
4.4.3 Mirrors as immersed systems
4.4.4 A concluding remark
5 Stop and Pupils and Windows, Oh My!
5.1 Fields
5.2 Some Special Rays
5.2.1 Meridional rays
5.2.2 Sagittal rays
5.2.3 Skew rays
5.2.4 Axial rays
5.2.5 Ray for objects at infinity
5.2.6 Reference rays
5.3 The Aperture Stop and Marginal Rays
5.4 Chief Rays and Pupils of a Lens
5.5 The Field Stop and its Windows
5.6 Pupil and Field Specifications
5.6.1 Field of view
5.6.2 f-number and numerical aperture
5.7 A Final Comment
Second Hiatus: Rays and Waves
H2.1 Rayleigh Criterion
H2.2 The Pinhole Camera
6 Spherical Aberration
6.1 Propagating Real Rays
6.2 Third-Order Aberrations
6.3 On-Axis Ray Errors for a Singlet Lens
6.4 Displaying Spherical Aberration
6.5 Transverse Ray Plots
6.6 Seidel Aberrations
6.6 Lens Bending
7 Coma and Astigmatism
7.1 Coma
7.1.1 Lens modules
7.1.2 Coma and lens bending
7.2 Aplanatic Lenses
7.3 Astigmatism
8 Aberrations of the Image Surface
8.1 Field Curves
8.2 Petzval Curvature
8.3 Field Curvature and Third-Order Coefficients
8.4 An Astigmatic Lens
8.5 Distortion
9 Chromatic Aberration
9.1 Refraction and Dispersion
9.2 Longitudinal Chromatic Aberration
9.3 Correcting Longitudinal Chromatic Aberration
9.4 An Example
9.5 Secondary Color and Superchromatism
9.6 Lateral Color
10 Reducing Aberrations
10.1 Defocus
10.2 Reducing Spherical Aberration
10.3 Reducing Coma
10.3.1 Stop shifting
10.3.2 Flipping a lens
10.4 Reducing Distortion
10.5 Reducing Field Curvature
10.5.1 Correcting astigmatism
10.5.2 Correcting Petzval
11 Analyzing the Performance of a Lens
11.1 Sensors
11.2 Spot Diagrams
11.3 Point Spread Function
11.4 Image Simulation
11.5 Modulation Transfer Functions
12 Designing a Lens
12.1 Defining the Problem
12.2 Specifying the System
12.3 Step 0: The Initial Assessment
12.4 Step 1: Fix the Design
12.5 Step 2: Shift the Stop
12.6 Step 3 : Add a Lens
12.6.1 Fictitious glasses
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12.6.2 Constructing a doublet
12.6.3 Optimizing the doublet
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12.7 Step 4: Add a Field Flattener
12.7.1 Optimizing the design
12.7.2 Add more points
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