Course Unit Code | 9360-0197/01 |
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Number of ECTS Credits Allocated | 3 ECTS credits |
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Type of Course Unit * | Choice-compulsory type B |
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Level of Course Unit * | Second Cycle |
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Year of Study * | First Year |
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Semester when the Course Unit is delivered | Winter Semester |
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Mode of Delivery | Face-to-face |
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Language of Instruction | Czech |
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Prerequisites and Co-Requisites | There are no prerequisites or co-requisites for this course unit |
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Name of Lecturer(s) | Personal ID | Name |
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| LES66 | doc. Dr. Ing. Michal Lesňák |
| LEG0015 | Ing. Dominik Legut, Ph.D. |
Summary |
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Teoretical and experimental aspects of Attenuated Total Reflection method. Surface plasmons, polariton waves. Surface Plasmonm Resonance method. Toal Internal Reflection Ellipsometry method. ATR, SPR, and TIRE applications for solid state physics experimental study. |
Learning Outcomes of the Course Unit |
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The subject is aimed to unify the physical knowledge to have a base for the creation of selected parts of physics for nanotechnology. The activity is focused on the following areas: particles and bodies in strength fields, molecular physics and thermodynamics, electrostatics, magnetic field, vibrations, wave properties of light, physics of atoms. |
Course Contents |
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Teoretical and experimental aspects of Attenuated Total Reflection method. Surface plasmons, polariton waves. Surface Plasmonm Resonance method. Toal Internal Reflection Ellipsometry method. ATR, SPR, and TIRE applications for solid state physics experimental study. |
Recommended or Required Reading |
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Required Reading: |
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http://www.physicsclassroom.com/Physics-Tutorial
D. Holliday: Principles of Physics. Wiley, 2015
Jin Au Kong: Electromagnetic Wave Theory, EMW Publishing, USA, 2000
D. Sarid, W. Challener: Modern Introduction to Surface Plasmons. Cambridge University Press, 2010 |
F. Krupka, L. Kalivoda: Fyzika. SNTL/ALFA, Praha, 1989
R. P. Feynman, R. B. Leighton, M. Sands: Feynmanovy přednášky z fyziky s řešenými příklady. FRAGMENT, Praha 2000
J. Homola, Surface Plasmon Resonance Based Sensors, Springer, Berlin, 2006 |
Recommended Reading: |
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J. Pištora, J. Vlček, M. Lesňák, D. Blažek, M. Kolenčík: Optical Methods in Diagnostics of Nanostructured Materials. Akademické nakladatelství CERM, Brno 2015 |
V. Hajko, J. Daniel-Szabó, M. Rákoš, V. Kavečanský, E. Tarabčáková, Z. Varga: Fyzika v príkladoch. Alfa, Bratislava, 1983
J. Krempaský: Fyzika. ALFA/SNTL, Bratislava 1988 |
Planned learning activities and teaching methods |
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Lectures |
Assesment methods and criteria |
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Task Title | Task Type | Maximum Number of Points (Act. for Subtasks) | Minimum Number of Points for Task Passing |
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Credit and Examination | Credit and Examination | 100 (100) | 51 |
Credit | Credit | 30 | 15 |
Examination | Examination | 70 | 35 |