Course Catalog 2007-2008

FYS-6216 SEMICONDUCTOR PHYSICS I, 4 cr
Semiconductor Physics I

Courses persons responsible
Tapio Rantala

Lecturers
Tapio Rantala

Implementations

Extra info: Lectures 7.1.2008-30.4.2008,
Exercises 14.1.2008-30.4.2008

Period 1 Period 2 Period 3 Period 4 Period 5 Summer

Lecture - - 2 h/week 2 h/week 2 h/week -

Exercise - - 2 h/week 2 h/week 2 h/week -

Exam

(Timetable for academic year 2007-2008)

Objectives
Selected issues from the text book chapters 1 - 9

Content

Content Core content Complementary knowledge Specialist knowledge

1. Detailed analysis of the band theory of electrons including principles of calculation methods. Electron¿phonon interaction and electronic properties of defects.

2. Transport phenomena in semiconductors.

Requirements for completing the course
Exam on text book chapters 1 to 5.

Evaluation criteria for the course

Used assessment scale is numeric (1-5)

Study material

Type Name Auhor ISBN URL Edition, availability... Exam material Language

Book Semiconductor Physics and Applications M. Balkanski ja R.F. Wallis 0-19-851740-8 www.oup.com Springer Yes English

Other online content Semiconductor Physics I Tapio Rantala http://www.tut.fi/~trantala/opetus No English

Prerequisites

Code Course Credits M/R

FYS-6100 FYS-6100 Basic Semiconductor Technology 5 Recommendable

Prequisite relations (Sign up to TUT Intranet required)

Remarks

Course starts in the 3rd period but IN THE BEGINNING OF JANUARY and will be lectured 2h / week.

Partial passing of course must be in connection with the same round of implementation.

The course is suitable for postgraduate studies.

Distance learning

ITC utilized during the course

- In distributing and/or returning exercise work, material etc

Estimate as a percentage of the implementation of the course

- Contact teaching: 30 %
- Distance learning: 0 %
- Proportion of a student's independent study: 70 %

Scaling

Methods of instruction Hours

Lectures 48

Exercises 60

Total sum 108

Additional information related to course
This high-level course is directed to computational semiconductor physics.
Suits to graduate level studies, too.

Correspondence of content
FYS-6210 Semiconductor Physics I

Course homepage

Last modified 22.11.2007

Modified by Virpi Hämäläinen

	Period 1	Period 2	Period 3	Period 4	Period 5	Summer
Lecture	-	-	2 h/week	2 h/week	2 h/week	-
Exercise	-	-	2 h/week	2 h/week	2 h/week	-
Exam

Content	Core content	Complementary knowledge	Specialist knowledge
1.	Detailed analysis of the band theory of electrons including principles of calculation methods. Electron¿phonon interaction and electronic properties of defects.
2.	Transport phenomena in semiconductors.

Type	Name	Auhor	ISBN	URL	Edition, availability...	Exam material	Language
Book	Semiconductor Physics and Applications	M. Balkanski ja R.F. Wallis	0-19-851740-8	www.oup.com	Springer	Yes	English
Other online content	Semiconductor Physics I	Tapio Rantala			http://www.tut.fi/~trantala/opetus	No	English

Code	Course	Credits	M/R
FYS-6100	FYS-6100 Basic Semiconductor Technology	5	Recommendable

Methods of instruction	Hours
Lectures	48
Exercises	60
Total sum	108

Last modified	22.11.2007
Modified by	Virpi Hämäläinen

Course Catalog 2007-2008

FYS-6216 SEMICONDUCTOR PHYSICS I, 4 crSemiconductor Physics I

FYS-6216 SEMICONDUCTOR PHYSICS I, 4 cr
Semiconductor Physics I