Optics using matrix representation

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written by Amy Lytle

Undergraduate students can have difficulty transferring theoretical knowledge, in particular more abstract mathematical models, to lab experiments, connecting theory with real physical phenomena. This intermediate-level optics lab course for physics major is designed to help students make this connection by building theoretical and experimental skills through a series of scaffolded activities. These skills are then used to complete an investigation of a real-life optical system.

This manual contains two sequences of lab activities that integrate the use of matrix modeling: Jones matrices for polarization, ending with an investigation of RealD 3D glasses, and ABCD matrices for image formation, ending with an investigation of a Galileoscope, a refracting telescope students can construct themselves.

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Last Modified: July 19, 2019

Subjects	Levels	Resource Types
Optics - Geometrical Optics = Optical Instruments - Polarization	- Upper Undergraduate	- Instructional Material = Laboratory

Intended Users	Formats	Ratings
- Educators - Learners	- application/pdf	Currently 0.0/5 Want to rate this material? Login here!

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Access Rights:: Free access
Restriction:: © 2019 Amy Lytle
Keywords:: Geometrical optics, Intermediate-level undergraduate, Optics, Wave optics
Record Creator:: Metadata instance created July 19, 2019 by Jeremiah Williams
Record Updated:: June 25, 2020 by Bruce Mason
Other Collections:: The PSRC

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