Course Code	Semester	Course Name	LE/RC/LA	Course Type	Language of Instruction	ECTS
FBY0009		Semiconductor Physics	3/0/0	DE	Turkish	9

Course Goals	To teach - the fabrication of semiconductors, the operation systems of basic semiconductor devices.
Prerequisite(s)	None
Corequisite(s)	None
Special Requisite(s)	None
Instructor(s)	Professor Mehmet Özer
Course Assistant(s)	None
Schedule	The course is not offered this semester.
Office Hour(s)	The course is not offered this semester.
Teaching Methods and Techniques	Lectures are supported by power point slides, online movies and problem-solving.
Principle Sources	Omar M. Ali, Elementary Solid State Physics, Revised Printing. Kittel C., Introduction to Solid State Physics, 8th Ed. Callister William D., Materials Science and Engineering an introduction, 7th Ed.
Other Sources	Hook J.R., Hall H.E., Katıhal Fiziği. Yoğurtçu Yahya Kemal, Katıların Fiziği. Tahsin Nuri Durlu, Katıhal Fiziğine Giriş. Ercüment Akat, Katıhal Fiziği Temelleri.

Course Schedules
Week	Contents	Learning Methods
1. Week	Introduction about semiconductors	Oral and visual presentation.
2. Week	Energy levels in crystals, wave properties of free electrons	Oral and visual presentation.
3. Week	motion in a periodic structıre, energy bands	Oral and visual presentation.
4. Week	holes, the motion of electrons and holes in an electric field	Oral and visual presentation.
5. Week	energy diagrams	Oral and visual presentation.
6. Week	resistance against to carriers	Oral and visual presentation.
7. Week	doping and defects in crystals	Oral and visual presentation.
8. Week	Midterm exam
9. Week	doping and defects in crystals	Oral and visual presentation.
10. Week	the concentration of carriers	Oral and visual presentation.
11. Week	the intrinsic, n-type, p-type semiconductors	Oral and visual presentation.
12. Week	the intrinsic, n-type, p-type semiconductors	Oral and visual presentation.
13. Week	the electron transportation	Oral and visual presentation.
14. Week	collision with defects	Oral and visual presentation.
15. Week	the electrical conductivity	Oral and visual presentation.
16. Week	the electrical conductivity	Oral and visual presentation.
17. Week	Final exam

Assessments
Evaluation tools	Quantity	Weight(%)
Midterm(s)	1	40
Project(s)	1	10
Final Exam	1	50

Program Outcomes PO-1 To acquire the ability of deeply understanding physical concepts, by extending knowledge and experience in physics. PO-2 To be able to understand, interpret, and synthesise interdisciplinary relations. PO-3 To be able to transfer field-specific information to other work groups in written, oral, and visual ways. PO-4 To be able to identify and evaluate problems relevant to the mastering field, by using various databases and bibliographic resources. PO-5 To be able to use the theoretical and applied information which is learned within the mastering field, with the help of information technologies. PO-6 To understand the fundamentals of physics in an advanced way and to acquire the ability of problem solving. PO-7 To adopt acting in accordance with scientific ethics. PO-8 To acquire the ability of reading and writing in at least one foreign language. PO-9 To be able to follow recent developments in the mastering field of physics, by making extensive scans of the literature. PO-10 To be able to develop individual decision and creativity skills.

Learning Outcomes LO-1 Students can learn the basic knowledge about semiconductors. LO-2 Students can learn the electrical conductivity in semiconductors. LO-3 Students can learn the basic semiconductor devices. LO-4 Students can find out how the semiconductor devices work. LO-5 Students can able to analyze the electronic circuits.

Course Assessment Matrix:

	PO 1	PO 2	PO 3	PO 4	PO 5	PO 6	PO 7	PO 8	PO 9	PO 10
LO 1
LO 2
LO 3
LO 4
LO 5