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Course Information

Course Title	Code	Semester	Laboratory+Practice (Hour)	Pool	Type	ECTS
Optical Amplifiers	EEM550	FALL-SPRING	3+0		E	6

Learning Outcomes	1-Defines fiber optics communications systems in detail 2-Evaluates Erbiyum mixed fiber optics amplifiers theory 3-Models Erbiyum mixed fiber optics amplifiers 4-Simulates Erbiyum mixed fiber optics amplifiers gain

ECTS / WORKLOAD

Activity	Percentage (100)	Number	Time (Hours)	Total Workload (hours)
Course Duration (Weeks x Course Hours)		14	3	42
Classroom study (Pre-study, practice)		14	6	84
Assignments	0	0	0	0
Short-Term Exams (exam + preparation)	0	0	0	0
Midterm exams (exam + preparation)	40	1	20	20
Project	60	1	25	25
Laboratory	0	0	0	0
Final exam (exam + preparation)	0	0	0	0
	0	0	0	0
Total Workload (hours)				171
Total Workload (hours) / 30 (s)				5,7 ---- (6)
ECTS Credit				6

Course Content

Week	Topics	Study Metarials
1	Basic optics rules and desciptions I	R1-Chapter 1
2	Basic optics rules and desciptions II	R1-Chapter 1
3	Failure	R1-Chapter 2
4	Optical fibre communication systems	R1-Chapter 3
5	Erbiyum mixed fiber optics amplifiers	R1-Chapter 4
6	EDFA theory I	R1-Chapter 5
7	EDFA theory II	R1-Chapter 5
8	Amplifying of gleam of energy levels	R1-Chapter 6
9	Erbiyum mixed fiber amplifiers I	R1-Chapter 7
10	Erbiyum mixed fiber amplifiers II	R1-Chapter 7
11	Optical power conversion I	R1-Chapter 8
12	Optical power conversion II	R1-Chapter 8
13	Diffusion equations	R1-Chapter 9
14	Numerical methods	R1-Chapter 10

Prerequisites	-
Language of Instruction	Turkish
Responsible	Prof. Dr. Murat ARI
Instructors	1-)Profesör Dr. Murat Arı
Assistants	-
Resources	R1-Becker. P. C. & Olsson. N. A. & Simpson J. R. (1999). EDFA: Fundamentals and Technology (1st Edition), Academic Press, USA
Supplementary Book	-
Goals	It aims to model of EDFA theory and to obtain gain simulations
Content	Basic optic rules and definition, EDFA Theory, Optical Power Conversion, Diffusion Equaitons and Numerical Methods

Program Learning Outcomes

	Program Learning Outcomes	Level of Contribution
1	Acquires information by carrying out scientific research in the field of Electrical and Electronics Engineering, evaluates the findings and makes comments	-
2	Complements the restricted or incomplete information and applies it, unifies the multidisciplinary information	3
3	Designs and implements a system meeting the requirements in the field of Electrical and Electronics Engineering	-
4	Makes an interpretation of a problem in the field of Electrical and Electronics Engineering, develops models for solutions and applies innovative methods in these solutions	4
5	Has comprehensive knowledge on the contemporary applied method and techniques used in the field of Electrical and Electronics Engineering and their limitations	-
6	Undertakes and implements analytic, simulation or experimental types of research and has the ability to solve the complex problems encountered there	5
7	Can participate and assume responsibility in multidisciplinary task forces	-
8	Observes the scientific, professional and ethical rules during data collection, its introduction and interpretation	-
9	Be aware of recent advances and developments in the field of Electrical and Electronics Engineering, learns, analyses and applies them wherever needed	2
10	Publishes his/her research findings verbally and in written forms in national and international arena	-

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