Optics and Optical Design
5.0
(4)
35 learners
What you'll learn
This course includes
- 13.3 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 44 lessons • 13.3 hours of video
Optics and Optical Design
44 lessons
• 13.3 hours
Optics and Optical Design
44 lessons
• 13.3 hours
- A Review of Geometrical Optics at the First-Year Physics Level 21:54
- A Review of Geometrical Optics at the Second-Year Physics Level 26:00
- A Review of Geometrical Optics at the Third-Year Physics Level 26:45
- A Review of Geometrical Optics at the Fourth-Year Physics Level 25:21
- Paraxial Ray Trace Equations and Building a YNU Spreadsheet, with an Example 22:56
- Optical Ray Diagrams versus Paraxial Ray Tracing: Solving a Two-Lens Imaging Problem Both Ways 17:47
- Write your own program for paraxial ray tracing - Here's mine in MatLab 29:15
- Paraxial Ray Tracing Using Matrices, with a MATLAB Example, PHYS 352 12:15
- Paraxial Ray Tracing Using Matrices, with a FRED Example of a Cassegrain Telescope 19:34
- Computing the Third Order Spherical Aberration of a Lens 19:31
- Coma Aberration of a Lens: With a Computational Example 18:59
- Astigmatism of Axisymmetric Lenses: From Concept through Computation in 22 Minutes 22:02
- Computing Petzval Curvature - 3rd Order Field Curvature Aberration 14:07
- Distortion Aberration: from Concept through Computation in 26 Minutes 26:15
- Chromatic Aberration: Calculating the Axial Color of a Lens 25:46
- Chromatic Aberration: Calculating the Lateral Color of a Lens 11:18
- How Does an Aperture Stop Influence Third Order Lens Aberrations? A Tutorial using Excel 20:31
- The Third Order Aberration Coefficients of Aspheric Surfaces 15:50
- Telecentricity: A Tutorial Using Excel 19:54
- Four Types of Image Vignetting 07:58
- Three Types of Image Smear 14:12
- The Mirascope Optical Illusion Mirage WITH RAY DIAGRAM SOLUTION, PHYS 122 05:17
- The Cooke Triplet: A Paraxial Ray Trace Example 15:25
- Beam Expanders, PHYS 352 13:52
- Electronic Viewfinder Eyepiece Design: A Patent Study 17:59
- Smartphone Camera Lens Design: A Patent Study 28:34
- Telephoto Prime Lens Design: A Patent Study 23:40
- Anamorphic Prism Design: A Patent Study 24:55
- Microlithography Reduction Projection Stepper Lens Design: A Patent Study 18:22
- How Do You Measure the Width of a Laser Beam?, PHYS 382 10:08
- Tuning a Diode Laser (With Demo), Lecture 42, PHYS/ENGS 495 22:43
- Aligning an Infrared Michelson Interferometer, PHYS 382 23:02
- Why Does a Michelson Interferometer have a Bull's-Eye Interference Pattern (sometimes)? 07:40
- Measuring the Refractive Index of Glass using a Michelson Interferometer, PHYS 382 13:34
- The Fabry-Perot Interferometer: What Do the Fringes Mean? 23:25
- The Optical Path Length of a Vacuum-Spaced Fabry-Perot Interferometer 04:17
- The Free Spectral Range of a Vacuum-Spaced Fabry-Perot Interferometer, PHYS 352 04:43
- What is the Refractive Index of Air and Why Does It Matter? 13:41
- What is the Fraunhofer Approximation??, PHYS 352 11:12
- The Fourier Transform Zoo, PHYS 352 17:56
- Dispersion: Phase Velocity Versus Group Velocity, PHYS 372 20:34
- Blackbody Radiation Physics, PHYS 362 16:27
- Blackbody Radiation for Optical Engineers, EECS X496 21:54
- Étendue 17:49
