Lecture note files.

SES #	LECTURE SLIDES
1	Course Organization; Introduction to Optics (PDF - 1.9MB)
2	Reflection and Refraction; Prisms, Waveguides, and Dispersion (PDF - 1.4MB)
3	Focusing, Imaging, and the Paraxial Approximation (PDF - 1.3MB)
4	Sign Conventions; Thin Lenses; Real and Virtual Images (PDF - 1.5MB)
5	Thick Lenses; The Composite Lens; The Eye (PDF - 1.7MB)
6	Terms: Apertures, Stops, Pupils, and Windows; Single-lens Camera (PDF)
7	Basics of Mirrors, Magnifiers, and Microscopes (PDF - 1.2MB)
8	Telescopes; Aberrations: Chromatic, Spherical, and Coma (PDF - 1.3MB)
9	More Aberrations; Optical Design; GRadient INdex (GRIN) (PDF - 1.8MB)
11	The Hamiltonian Formulation; Introduction to Waves (PDF - 3.3MB)
12	The Wave Equation; Phasor Representation; 3D Waves (PDF - 2.0MB)
13	3D Wave Phenomena; Introduction to Electromagnetics (PDF - 2.4MB)
14	Maxwell's Equations; Polarization; Poynting's Vector (PDF)
15	Huygens Principle; Interferometers; Fresnel Diffraction (PDF - 2.3MB)
16	Gratings: Amplitude and Phase, Sinusoidal and Binary (PDF)
17	Fraunhofer Diffraction; Fourier Transforms and Theorems (PDF - 1.9MB)
18	Spatial Filtering; Lens Transfer Functions & Transforms (PDF)
19	The 4F System; Binary Amplitude & Pupil Masks (PDF - 2.1MB)
20	Shift Invariance; Pupil Engineering; The Talbot Effect (PDF - 3.1MB)
22	Coherent and Incoherent Imaging (PDF - 3.5MB)
23	Imaging with a Single Lens (PDF - 1.1MB)
25	Resolution; Defocused Optical Systems (PDF - 1.2MB)
26	Depth of Focus and Field; Polarization; Wave Plates (PDF - 2.8MB)