This is the second semester of the introductory optics course for undergraduate and graduate students. As such, it also serves as part of the introductory course for the graduate optics program. The major topics are superposition of waves, interference, diffraction, and lasers. Of these, interference is the big topic starting with thin films and leading up to an examination of major scientific instruments, including the Michelson and the Fabry-Perot interferometers. Diffraction involves taking advantage of and finding the limitations imposed by the wave nature of light. With lasers, we delve into an incredibly important modern instrument, which is seemingly used everywhere. This leads naturally into a discussion of lidar. For graduate credi...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
A textbook on lasers and optical engineering should include all aspects of lasers and optics; howeve...
Goals: To introduce students to the study of optical phenomena interpreted in terms of a wave theory...
This course is an introduction to optical science with elementary engineering applications. Topics c...
This collection includes materials for the Introduction to Lasers and Optics course that was develop...
This collection includes materials for the Introduction to Lasers and Optics course that was develop...
Introduction to optical science with elementary engineering applications. Geometrical optics: ray-tr...
This incisive text provides a basic undergraduate-level course in modern optics for students in phys...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
Lectures, laboratory exercises, and projects in modern optics. Topics: polarization properties of li...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
A textbook on lasers and optical engineering should include all aspects of lasers and optics; howeve...
Goals: To introduce students to the study of optical phenomena interpreted in terms of a wave theory...
This course is an introduction to optical science with elementary engineering applications. Topics c...
This collection includes materials for the Introduction to Lasers and Optics course that was develop...
This collection includes materials for the Introduction to Lasers and Optics course that was develop...
Introduction to optical science with elementary engineering applications. Geometrical optics: ray-tr...
This incisive text provides a basic undergraduate-level course in modern optics for students in phys...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
Lectures, laboratory exercises, and projects in modern optics. Topics: polarization properties of li...
This lab activity, presented by John Chamberlain, is one of four on the topic of interference and di...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
This lab activity, presented by John Chamberlain, demonstrates the measurement of diffraction and wa...
A textbook on lasers and optical engineering should include all aspects of lasers and optics; howeve...
Goals: To introduce students to the study of optical phenomena interpreted in terms of a wave theory...