Solid State Physics
Objectives
Objectives
One intends to focus the fundamental concepts of Condensed Matter, emphasizing the applications to engineering and life problem systematization and solving. Fundamental proprieties of Condensed Matter will be verified in experimental laboratory sessions, involving the comprehension of experimental setups, data collecting and treatment systematization and elaboration of scientific reports.
General characterization
Code
10917
Credits
6.0
Responsible teacher
Ana Cristina Gomes da Silva, Gregoire Marie Jean Bonfait
Hours
Weekly - 5
Total - 52
Teaching language
Português
Prerequisites
First and second year grade Physics and Mahtematics; Quantum Mechanics; Statistical Physics
Bibliography
4. Bibliography
Introduction to Solid State Physics, C. Kittel, 7th edition (Wiley)
Introdução à Física Estatística, J.P. Casquilho e P.I. Teixeira, IST Press (2011)
Introduction to Statistical Physics, J.P. Casquilho and P.I. Teixeira, (Cambridge UniversityPress 2015)
Fundamentals of Condensed Matter and CrystallinePhysics, D.L. Sidebottom (Cambridge UniversityPress 2012)
R. Turton, The Physics of Solids, ed. Oxford University Press (2000)
Other Books for reviews:
[1] Arthur Beiser, Perspectives of Modern Physics, Internatio. 1981.
[2] Zajac and Hecht, Optics. Addison Wesley, 1974.
[3] A. & Finn, Física volume II Campos e Ondas, Brasileira. 1972.
Teaching method
Theoretical lectures, once a week.
Practical sessions in the laboratory every week, and problem resolution sessions.
Evaluation method
Assessment
Theory: 2 tests and / or final exam
Theory grade: simple average of the grades of the tests or the exam grade
A successful result in the theory assessment is required - minimum grade: 10 in 20
LABORATORY
works + reports + oral presentation of each work
More detailed information in "Calendarização" - folder - Protocolos.
50% Report * 50% oral presentation and discussion
Frequency
Frequency is mandatory. Obtained with the laboratory sessions and with minimum 2/3 attending problem sessions.
A successful result in the laboratory assessment is required - minimum grade: 10 in 20
Final grade
The final grade is the average of 70% of the theory grade and 30% of the laboratory grade.
Sudents with a previous year(s) successeful assessment in the laboratory component are only assessed relative to the theory and the final grade is given by the theory grade
Subject matter
Solid State Physics Program
1. Crystals and crystalline solids
1.2 Crystalline lattice.
1.2 Labelling crystal planes.
1.3 Reciprocal lattice
1.4 X-ray diffraction
1.5 Lattice defects
2. Thermal properties of solids
2.1 Thermal vibrations of the atoms. Phonons.
2.2 Thermal expansion.
2.3 Contribution of thermal vibrations of crystalline lattice for the heat capacity of the solids.
2.3.1 Classical approach.
2.3.2 Einstein Model.
2.3.3 Debye Model
2.4 Thermal conductivity.
3. Electrical Properties of metals
1.1 Classical theory of conduction in metals.
1.2 Failures of the classical model.
1.3 Fermi-Dirac distribution
1.4 The density of states.
1.5 The free electron model.
1.6 The density of occupied states.
1.7 Introduction to band theory of electrical conduction.
4. Semiconductors
2.1 Band theory of solids –again.
2.2 The difference between insulators and semiconductors.
2.3 Holes.
2.4 The effective mass.
2.5. n-type and p-type semiconductors. Hall effect.
2.6 The free electron model applied to semiconductors.
5. Magnetic properties of solids
4.1 Macroscopic magnetic quantities.
4.2 Atomic magnetic moment.
4.3 Paramagnetism. Brillouin theory.
4.4 Ferromagnetism. Weiss theory. Landau theory. Ferromagnetic domains.