COMPLEMENTS OF STRUCTURE OF MATTER
Stampa
Enrollment year
2016/2017
Academic year
2016/2017
Regulations
DM270
Academic discipline
FIS/03 (MATERIAL PHYSICS)
Department
DEPARTMENT OF PHYSICS
Course
Curriculum
Fisica teorica
Year of study
Period
1st semester (03/10/2016 - 20/01/2017)
ECTS
6
Lesson hours
48 lesson hours
Language
English friendly: italian or english upon request
Activity type
ORAL TEST
Teacher
CARRETTA PIETRO (titolare) - 6 ECTS
Prerequisites
Knowledge of the basic aspects of quantum mechanics, statistical mechanics and the foundations of solid state physics, namely the lattice structures, the electronic bands and the lattice vibrations. The student should have already learned those aspects during the first three years of university.
Learning outcomes
Learning of the basic aspects of phase transitions and the fundamental properties of magnetic and superconducting materials.
Course contents
First the general aspects of phase transitions will be introduced: phenomenology, first and second order transitions, the order parameter, the response functions, the critical exponents, the correlation function and their behaviour on approaching a phase transition, the correlation effects among critical variables and the Stoner-Hubbard model. Then the course will address the magnetic properties of matter starting from the metals: the generalized susceptibility, the Landau levels, de Haas-Van Alphen effect, Landau diamagnetism, Pauli paramagnetism, dimensionality effects and the spin density waves. Then the basic aspects involved in the paramagnetism of insulators are recalled and the direct and indirect exchange interactions treated. The static properties and excitations in ferromagnets, antiferromagnets and in other types of magnetically ordered systems are presented. The effects of magnetic frustration are outlined and the main properties of molecular magnets described. Then the basic aspects of superconductors will be introduced: their thermodynamic properties, the London equations, the Cooper pair formation, the gap and the isotope effect, the Josephson effect and the SQUID, the Ginzburg-Landau theory. Finally some techniques which allow to investigate the basic properties of magnetic and superconducting materials will be presented: magnetometry, NMR, ┬ÁSR and neutron scattering.
Teaching methods
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Reccomended or required readings
A.Rigamonti and P.Carretta, Structure of Matter (3rd Ed.) (Springer, 2015).
G. Grosso and G. Pastori Parravicini, Solid State Physics (Academic Press, 2000). H. Eugene Stanley, Introduction to Phase Transitions and Critical Phenomena (Oxford University Press)
C. Kittel, Introduction to Solid State Physics (John Wiley & Sons 2005)
Assessment methods
Oral examination.
Further information
Oral examination.
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