Individual
course details |
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Study programme |
Theoretical
end experimental physics |
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Chosen research area (module) |
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Nature and level of studies |
Master
Studies |
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Name of the course |
Physics
of Dielectric |
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Professor (lectures) |
Jablan
Dojčilović |
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Professor/associate (examples/practical) |
Slavica
Maletić |
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Professor/associate (additional) |
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ECTS |
10 |
Status
(required/elective) |
elective |
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Access requirements |
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Aims of the course |
Teaching
students to apply and devalop scientific knowledge of physics of linear
dielectics |
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Learning outcomes |
Understanding
phenomena regarding crystal and amorphous systems. Learning experimental
techniques needed for individual research work. |
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Contents of the course |
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Lectures |
Classification of dielectrics. Elastic and thermal
mechanisms of polarization. The relation
between dielectric permittivity
and polarizability. Born and Kirkwood
model. Onzager - theory. A complex dielectric permittivity and dipole
correlation function. Dielectric losses. Models of relaxation processes (
Debye model). Non-exponential
relaxation process. Kramers - Kronig relations. The fractal nature of the dielectric
response. Applications. Classification of the nonlinear dielectrics.
Experimental Techniques. Examples and applications. |
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Examples/ practical classes |
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Recommended books |
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1 |
J.Dojcilovic,
Physics of dielectrics, Faculty of Physics, 2007, (in press) |
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2 |
R.Blinc,
B. Sheksh, Ferroelectrics and Anti Ferroelectrics |
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3 |
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4 |
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5 |
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Number of classes (weekly) |
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Lectures |
Examples&practicals |
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Student
project |
Additional |
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Teaching and learning methods |
Lectures,
Practicals exercises, home works, seminars. |
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Assessment (maximal 100) |
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assesed coursework |
mark |
examination |
mark |
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coursework |
10 |
written
examination |
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practicals |
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oral
examination |
40 |
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papers |
20 |
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presentations |
30 |
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