Different types of optical systems used in astronomy, biology, industry, defense, entertainment etc.

Optical and photonic components and devices used in the systems

Specifications for systems, components and devices

Demonstration of different lens types

Ray layouts for representative systems upholding the unity of functions in the apparent diversity

ICO definition of “Optics”

Theories of Light used in analytical treatment of optical systems

Interrelationship between the theories; What? Where? When?

Characteristics of a propagating plane light wave: polarization, amplitude, direction, frequency and phase

Concept of Wavefront and Rays as orthogonal trajectories

Statement of the problem of lens design/optical system design

General Methodology for Optical Design

Raison d’être of paraxial analysis

Paraxial Approximation: on-axis imaging and extra-axial imaging

Paraxial Ray Tracing Formulae

Choice of paraxial ray variables

General Object-Image relationship for an axi-symmetric imaging system

Finite focal and afocal systems

Principal planes and Nodal planes; concept of equivalent focal length

Conjugate positions for afocal systems; types of afocal systems

Throw-Magnification Curve

Telephoto and Wide angle Lenses

Importance of paraxial invariant

Stops and Pupils

Vignetting

Telecentric systems

Definition of F-number and numerical aperture

Role of Pupil Matching for Optical systems in tandem

Field Lens and Relay Lens

Medical Endoscopes: A Case study

Classification of lens systems based on field size and relative aperture size

Types of telescopes

Magnification by simple magnifiers; magnifiers and eyepiece

Compound Microscopes; Infinity corrected objectives

Illumination Systems: Netsonian critical illumination and Köhler illumination

Eyepieces; optical parameters of the human eye

Monocular, Binocular and Biocular Viewing

Fermat’s principle and Malus-Dupin Theorem

Introduction to Hamiltonian Optics

Optical Path Differential Theorem

Hamilton-Bruns Point Eikonal; Point Angle Eikonal; Angle Eikonal

Perfect Imaging with Real rays

Stigmatic Imaging of a point by Cartesian ovals

Aplanatic Surfaces

Optical Cosine Rule; Abbe sine condition; Herschel condition

Optics around a principal ray

Parabasal Optics; s and t rays

Lagrangian Optics

Image Formation by real rays in a general optical system without symmetry

Image Formation by real rays in an axi-symmetric lens system

Symmetry considerations in performance analysis: Axial symmetry and Bilateral symmetry

Measures of Aberrations

Ray Aberration, Wave Aberration and Hamilton-Bruns’ eikonal : Interrelationships

Effects of shift of center and radius of the reference sphere

Power series expansion of the aberration function

Longitudinal Shift of focus and Transverse Shift of focus

Aberrations of Various orders

Point imaging Aberrations and Aberrations of image shape

Classification of Aberrations

Chromatic Aberrations

Axial Chromatism and Lateral Chromatism

Secondary Spectrum

Conrady (D-d) formula

Physical significance of primary aberrations

Primary Aberrations for a specific field point

Primary Aberrations and Seidel Aberrations

Seidel Aberrations in terms of paraxial parameters of the paraxial marginal ray and the paraxial pupil ray (Expressions only; No derivation)

Summation of primary aberrations for cascaded interfaces

Ray diagrams corresponding to different primary aberrations

Aberration free lenses and surfaces

Thin Lens Aberration Theory

Seidel Aberrations of a thin lens in air with stop on it

Dependence on Shape and Conjugate variables

Dependence on refractive index and dispersion of the optical material of the lens

Stop Shift formulae

Pupil Aberrations

Conjugate Shift formulae

Raison d’être for Diffraction Theory

Airy Pattern

Two point resolution; Rayleigh criterion; Sparrow Criterion

Point Spread Function (PSF) for Aberrated systems

Rayleigh quarter wavelength rule

Strehl criterion (Definitionshelligkeit)

Special case for small aberrations

Variance of Wave Aberration

Maréchal criterion for aberration balancing

Strehl criterion for large aberrations

Zernike Aberration polynomials

Principle of Superposition

Space invariance and isoplanatism

Fourier Analysis

Physical interpretation of the kernel of Fourier Transform

Optical Transfer Function (OTF): Modulation Transfer Function (MTF) and Phase Transfer Function (PTF)

Edge Spread Function (ESF)

Interrelationship between PSF, OTF and ESF

Coherence and Incoherence

Abbe Theory of coherent image formation

Imaging as a process of double diffraction

Hopkins’ aberration tolerance criterion based on OTF

Through focus MTF

Mathematical preliminaries for optimization of univariate and multivariate functions

Degrees of freedom in lens design optimization

Boundary constraints based on physical realizability, manufacturability and material availability

Concept of Merit Function as a metric during optimization process

Nonlinear Optimization methods

Formation of Merit Function in terms of aberrations and pseudo-aberrations

Method of least squares optimization

Damped least squares and techniques for damping

Local optimization and Global optimization

Heuristic methods for global/quasi-global optimization

Stochastic global optimization methods

A prophylactic approach for global synthesis

(a) Conventional lens types for infinite conjugate systems

(b) Aberration Reduction strategies in lens design

(c) Advanced Topics in Extra-axial imagery: Paraxial and Real pupils; Pupil exploration; Anamorphic imagery and its effects on OTF analysis; Effects of residual aberrations on Cosine-fourth power law of illumination

(d) Advanced topics in Chromatism: Spherochromatism; Effects of Pupil chromatism; Image space associated rays and Object space associated rays; Polychromatic PSF and MTF

(e) Elements of Zoom Lenses