FC2004 Solid State Physics

Faculty of Education
Spring 2021
Extent and Intensity
3/0/0. 4 credit(s). Type of Completion: zk (examination).
Teacher(s)
Mgr. Jan Čech, Ph.D. (lecturer)
Mgr. Lukáš Pawera (seminar tutor)
doc. RNDr. Petr Sládek, CSc. (seminar tutor)
Guaranteed by
doc. RNDr. Petr Sládek, CSc.
Department of Physics, Chemistry and Vocational Education - Faculty of Education
Contact Person: Jana Jachymiáková
Supplier department: Department of Physics, Chemistry and Vocational Education - Faculty of Education
Timetable of Seminar Groups
FC2004/Kombi01: Fri 5. 3. 10:00–12:50 laboratoř 86, Fri 19. 3. 10:00–12:50 laboratoř 85, Fri 9. 4. 10:00–12:50 laboratoř 85, Fri 30. 4. 8:00–10:50 laboratoř 85, J. Čech, L. Pawera, P. Sládek
FC2004/Prez01: Thu 12:00–14:50 učebna 3, J. Čech, L. Pawera, P. Sládek
Course Enrolment Limitations
The course is only offered to the students of the study fields the course is directly associated with.
fields of study / plans the course is directly associated with
there are 11 fields of study the course is directly associated with, display
Course objectives
The aim of the course is to obtain knowledge on the topic of structure and properties of solids and semiconductors at the college level. Emphasis is placed on the logical construction of the science disciplines and to acquire the knowledge and skills needed for subsequent lessons on the structure and properties of solids with subsequent transformation into physics teaching in elementary school these reasons it is in talks situated larger number of thought experiments and emphasized the relationship discussed substance to practice, nature, home, etc. technical applications. Objectives: Trivia: A comprehensive overview of knowledge about the topic of solids and semiconductors with an emphasis on the relationship of the subject matter to practice, nature, home, etc. technical applications. Skills: Can you identify the principles of natural processes and technical applications. Conducted sufficient approximation based on fundamental physical laws and carry out subsequent calculations simple application examples. Knowing simple experiments and the relation of the subject matter for practical applications. Proving performed by a qualified estimate of value. Attitudes: To learn the values ​​of objectivity and significance of scientific work.
Learning outcomes
After completing the course the student should know and know: Basic laws of the thematic circuit structure and properties of solids and semiconductors. Describe simple thought experiments and the relationship of the subject matter to practical applications. Calculate simple application examples. Can physically interpret the principles of applications based on semiconductors that occur in everyday life.
Syllabus
  • 1. Structure of solids. Monocrystals. 2. Disorders in solids. 3. Mechanical properties of solids. 4. Lattice vibrations and the specific heat capacity of solids. 5. Band theory of solids. 6. Optical properties of solids. 7. Electrical properties of solids. 8. Magnetic properties of solids. 9. Semiconductors. Electrons and holes, the density of states in the bands, transport phenomena in semiconductors. 10. Photoelectric properties of semiconductors. 11. Contact metal-semiconductor, Schottky diode, P-N junction, current-voltage characteristic. 12. Basic technology for semiconductors and components. Basic semiconductor components.
Literature
    required literature
  • HALLIDAY, David, Robert RESNICK and Jearl WALKER. Fyzika. Translated by Petr Dub - Miroslav Černý - Jiří Komrska - Michal Lenc - Bohum. Druhé přepracované vydán. Brno: VUTIUM, 2013. x, 1248. ISBN 9788021441231. info
    not specified
  • KITTEL, Charles. Introduction to solid state physics. 6th ed. New York: John Wiley & Sons, 1986. 646 s. ISBN 0471874744. info
  • BANÍK, Ivan and Rastislav BANÍK. Polovodiče v obrazových úlohách. D. 1. 1. vyd. Praha: Státní pedagogické nakladatelství, 1986. 223 s. info
  • KITTEL, Charles. Úvod do fyziky pevných látek : Introduction to solid state physics (Orig.). 1. vyd. Praha: Academia, 1985. 598 s. info
  • FRANK, Helmar and Václav ŠNEJDAR. Principy a vlastnosti polovodičových součástek. Vyd. 1. Praha: SNTL - Nakladatelství technické literatury, 1976. 487 s. info
  • DEKKER, Adrianus J. Fyzika pevných látek [Dekker, 1966]. Praha: Academia, 1966. 543 s. info
  • DRAGOUN, Zdeněk and Karel ŠMIROUS. Polovodiče. 1. vyd. Praha: SNTL - Nakladatelství technické literatury, 1959. 230 s. info
Teaching methods
lectures
Assessment methods
oral exam
Language of instruction
Czech
Further comments (probably available only in Czech)
The course is taught annually.
Information on the extent and intensity of the course: 12 hodin.
The course is also listed under the following terms Spring 2018, Spring 2019, Spring 2020.
  • Enrolment Statistics (recent)
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