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Plasmonics
Major: Micro- and Nano-system Technology
Code of Subject: 8.153.00.M.23
Credits: 3
Department: Photonics
Lecturer: Prof. Dr. Fitio Volodymyr Mykhailovych
Semester: 4 семестр
Mode of Study: денна
Learning outcomes:
As a result of studying the module students should:
1) to know:
- plasmonics applications (including bioplasmonics);
- basic principles of interaction of laser radiation with nanostructured materials;
- the main research methods used in plasmonics;
2) to be able to:
- evaluate the possibility and need to use plasmonics to solve a specific problem;
- identify the functional nodes necessary to ensure the functioning of the system using the methods of plasmonic physics;
- select the necessary mathematical research methods for specific plasmonics problems.
1) to know:
- plasmonics applications (including bioplasmonics);
- basic principles of interaction of laser radiation with nanostructured materials;
- the main research methods used in plasmonics;
2) to be able to:
- evaluate the possibility and need to use plasmonics to solve a specific problem;
- identify the functional nodes necessary to ensure the functioning of the system using the methods of plasmonic physics;
- select the necessary mathematical research methods for specific plasmonics problems.
Required prior and related subjects:
• prerequisites: mathematics, physics, optical materials science, electrodynamics;
• co-requisites: the basics of photonics.
• co-requisites: the basics of photonics.
Summary of the subject:
The objective of studying the discipline is to obtain theoretical and practical knowledge in the field of practical use of plasmonics methods in physics, technology and medicine. Knowledge about the possibility of using Plasmonics as a technological tool. To get acquainted with the concept of surface plasmon-polaritons and localized plasmons in nanostructures in the visible region of the spectrum. To get acquainted with different types of plasmon resonance and methods of its excitation.
Recommended Books:
1. Novotnyi L., Heht B. Basics of nanooptics / Transl. from engl. / Ed. by V.V. Samartseva. – M.: Physmatlit, 2009. – 484 p. – ISBN978-5-9221-1095-2. (in Russian)
2. Mayer S.A. Plasmonics: theory and applications. – M.-Izhevsk: SRC «regular and chaotic dynamics», 2011. – 296 p. (in Russian)
3. Nanoparticles: From Theory to Applications / Edited by Gunter Schmid, 2nd ed. - Wiley-VCH Verlag, Weinheim, 2010. ISBN: 978-3-527-32589-4.
4. Prasad P.N. Nanophotonics. - A John Wiley & Sons, Inc., Publication 2004.
5. Gaponenko S.V. Introduction to nanophotonics. - Cambridge University press, 2010. ISBN: 978-05-1175-050-2.
6. Light Control with Ordered and Disordered Nanophotonic Media / PhD thesis by Simon R. Huisman. - Department of Science and Technology and MESA+ Institute for Nanotechnology, University of Twente, P.O. Box 217, 7500 AE Enschede, The Netherlands. 2013. ISBN: 978-94-6191-829-1.
2. Mayer S.A. Plasmonics: theory and applications. – M.-Izhevsk: SRC «regular and chaotic dynamics», 2011. – 296 p. (in Russian)
3. Nanoparticles: From Theory to Applications / Edited by Gunter Schmid, 2nd ed. - Wiley-VCH Verlag, Weinheim, 2010. ISBN: 978-3-527-32589-4.
4. Prasad P.N. Nanophotonics. - A John Wiley & Sons, Inc., Publication 2004.
5. Gaponenko S.V. Introduction to nanophotonics. - Cambridge University press, 2010. ISBN: 978-05-1175-050-2.
6. Light Control with Ordered and Disordered Nanophotonic Media / PhD thesis by Simon R. Huisman. - Department of Science and Technology and MESA+ Institute for Nanotechnology, University of Twente, P.O. Box 217, 7500 AE Enschede, The Netherlands. 2013. ISBN: 978-94-6191-829-1.
Assessment methods and criteria:
• Current control (30%): written reports on practical works, oral interviews, test papers.
• Control measures (70%): exam.
• Control measures (70%): exam.