Introduction to 2-D linear system theory and 2-D Fourier transforms; fundamentals of physical optics and diffraction theory, Fourier optics, imaging properties of optical systems; introduction to optical signal processing; optical interferometer methods and optical sensing devices and technology including fiber optic interferometric sensors and optical gyroscopes including signal processing methods both in hardware and software; digital imaging methods, including 3D image formation and holography; 3D display technologies.
Optics (EE 544)
2015 Fall
Faculty of Engineering and Natural Sciences
Electronics Engineering(EE)
3
10
Meriç Özcan meric@sabanciuniv.edu,
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English
Doctoral, Master
--
Formal lecture,Interactive lecture
Communicative,Project based learning
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| Programs\Type | Required | Core Elective | Area Elective |
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| Manufacturing Engineering - With Bachelor's Degree | * | ||
| Manufacturing Engineering - With Master's Degree | * | ||
| Manufacturing Engineering - With Thesis | * | ||
| Materials Science and Nano Engineering-(Pre:Materials Science and Engineering) | * | ||
| Materials Science and Nano Engineering-(Pre:Materials Science and Engineering) | * | ||
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| Mechatronics Engineering - With Thesis | * | ||
| Molecular Biology, Genetics and Bioengineering (Prev. Name: Biological Sciences and Bioengineering) | * | ||
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| Physics - Non Thesis | * | ||
| Physics - With Bachelor's Degree | |||
| Physics - With Master's Degree |
CONTENT
OBJECTIVE
To introduce the basics of optics and optical systems, using geometrical
and physical optics. Optical signal processing systems and optical sensing
systems as well as the imaging optics are covered. Each student will select
a project which will involve computer simulations and/or lab demonstrations
and a final presentation to the class.
LEARNING OUTCOMES
- to understand 2-D linear system theory and 2-D Fourier transforms,
- to know the fundamentals of physical optics and diffraction theory,
- to understand the Fourier optics, and imaging properties of optical systems, will gain knowledge of optical signal processing, optical interferometer methods and optical sensing devices and technology including fiber optic interferometric sensors and optical gyroscopes,
- to understand digital imaging methods, including 3D image formation and holography, and 3D display technologies.
Update Date:
ASSESSMENT METHODS and CRITERIA
| Percentage (%) | |
| Individual Project | 40 |
| Written Report | 40 |
| Presentation | 10 |
| Homework | 10 |
RECOMENDED or REQUIRED READINGS
| Readings |
Optics by Eugene Hecht - Addison-Wesley Introduction to Fourier Optics by Joseph W. Goodman - McGraw-Hill Digital Holography: Digital Hologram Recording, Numerical Reconstruction, and Related Techniques by Ulf Schnars, Werner Jüptner -Springer |