26E064PMO - Modern Optics Projects

Course specification
Course title		Modern Optics Projects
Acronym		26E064PMO
Study programme		Electrical Engineering and Computing
Module		Physical Electronics - Biomedical and Nuclear Engineering, Physical Electronics - Nanoelectronics and Photonics
Type of study		bachelor academic studies
Lecturer (for classes)		asst. professor PhD Petar Atanasijević professor PhD Peđa Mihailović professor PhD Jasna Crnjanski
Lecturer/Associate (for practice)
Lecturer/Associate (for OTC)		asst. MA Mladen Banović, electrical and computer engineer asst. MA Milena Mićić, electrical and computer engineer asst. professor PhD Petar Atanasijević
ESPB		6.0	Status	elective
Condition
The goal		Gaining hands-on experience with optical instruments: lasers, photodetectors, and optical elements for controlling laser beams and light in general. Understanding the foundations of modern classical and quantum optics through direct experimental problems. Teamwork on experimental challenges in the multidisciplinary field of modern optics, integrating physics, engineering, and computing.
The outcome		The student is capable of independently using basic equipment in an optical laboratory, systematically documenting and orally presenting their experimental work. The student is prepared to design optical experiments and work in a team. The acquired practical foundation in quantum phenomena serves as a starting point for understanding emerging technologies as quantum sensors and communications.
Contents
URL to the subject page		http://nobel.etf.bg.ac.rs/studiranje/kursevi/of4pmo
Contents of lectures		Introduction to experimental optics. Safety when working in an optical laboratory. Handling optical components. Design and discussion of experimental projects in geometrical and wave optics, beam optics, Fourier and quantum optics, electrooptics, spectrometry, fiberoptics and optical communications.
Contents of exercises		Laboratory exercises: individual/team realization of projects in geometrical and wave optics, beam optics, Fourier and quantum optics, electrooptics, spectrometry, fiberoptics and optical communications. Taking lab notes throughout the realization of an experimental project. Processing, analysis and interpretation of the measured data. Writing laboratory reports.
Literature
A.M. Gretarsson: A first course in laboratory optics. Cambridge University Press, 2021. (Original title) S.G. Lipson: Optics Experiments and Demonstrations for Student Laboratories. IOP Publishing, 2020. (Original title) B.E.A. Saleh, M.C.Teich: Fundamentals of Photonics, John Wiley & Sons, 2007, New Jersey (Original title)
Number of hours per week during the semester/trimester/year
Lectures	Exercises	OTC	Study and Research	Other classes
2		3
Methods of teaching		Lectures, laboratory exercises, the final project, and presentations of the acquired and processed results.
Knowledge score (maximum points 100)
Pre obligations		Points	Final exam	Points
Activites during lectures			Test paper
Practical lessons		50	Oral examination	30
Projects		20
Colloquia
Seminars