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Vorlesungs- und Modulverzeichnis nach Studiengängen >> Technische Fakultät (Tech) >> Elitestudiengänge >> Advanced Optical Technologies - Master of Science (AOT) >> Vorlesungsverzeichnis >>
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Grundlagen
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Labcourse: Optical Material and Systems [OMS/LAB] -
- Dozentinnen/Dozenten:
- Nicolas Joly, Angela Perez Castaneda
- Angaben:
- Praktikum, 2 SWS, Schein, ECTS: 2,5, nur Fachstudium
- Termine:
- Blockveranstaltung 13.6.2022-27.6.2022 Mo, Blockveranstaltung 23.6.2022-14.7.2022 Do, 9:00 - 17:00, AOT-Praktikumslabor
Students for whom the course is mandatory will be informed about the details by the MAOT office.
Vorbesprechung: Montag, 23.5.2022, 10:15 - 11:45 Uhr, AOT-Kursraum
- Studienrichtungen / Studienfächer:
- WPF AOT-GL ab 2
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Advanced nonlinear optics -
- Dozentinnen/Dozenten:
- Nicolas Joly, Hanieh Fattahi, Maria Chekhova
- Angaben:
- Vorlesung, 2 SWS, ECTS: 5, nur Fachstudium
- Termine:
- Mi, 14:00 - 16:00, HE
- Studienrichtungen / Studienfächer:
- WPF AOT-GL 1
- Inhalt:
- The goal of this lecture is to explore advanced concepts of nonlinear optics and their applications. This will cover the following topics:
Nonlinear propagation in solid-core photonic crystal fibres (modulation instability, four-wave mixing, soliton dynamics, supercontinuum generation) and in hollow-core photonic crystal fibres (generation of tunable dispersive waves, plasma in fibres)
Nonlinear optical effects (parametric down-conversion, four-wave mixing, modulation instability) for the generation of nonclassical light (entangled photons, squeezed light, twin beams, heralded single photons).
Nonlinear effects for generating high energy sub cycle pulses (kerr-lens mode-locking, Yb:YAG laser technology, optical parametric amplification, pulses synthesis, attosecond pulse generation)
- Schlagwörter:
- Please register using StudOn (https://www.studon.fau.de/crs3671904_join.html)
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Laser Tissue Interaction Exercises [LTI-E] -
- Dozentinnen/Dozenten:
- Florian Klämpfl, Moritz Späth, Martin Hohmann, Dongqin Ni
- Angaben:
- Übung, 2 SWS, ECTS: 2,5, für FAU Scientia Gaststudierende zugelassen, Weitere Infos / Further Informations in "Organisatorisches"
- Termine:
- Fr, 10:15 - 11:45, SR LPT 02.030
- Studienrichtungen / Studienfächer:
- WPF AOT-GL 2
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Advanced Laser -
- Dozent/in:
- Nicolas Joly
- Angaben:
- Vorlesung mit Übung, 4 SWS, Schein, ECTS: 5, für FAU Scientia Gaststudierende zugelassen
- Termine:
- Fr, 12:30 - 16:30, AOT-Kursraum
First meeting: 6 May 2022
ab 6.5.2022
- Studienrichtungen / Studienfächer:
- WPF AOT-GL 2-3
- Voraussetzungen / Organisatorisches:
- Due to the corona virus situation the courses will be conducted as an e-learning course. Please go to the StudOn-link provided below for more information.
- Inhalt:
- Z-cavity
Dispersion management for ultra-short pulse generation
Various technique of characterisation of ultra-short pulses
Polarisation effects and Jones’ formalism
Semi-classical model for a laser (Maxwell-Bloch equations)
The rest of the lecture will consist of seminar presented by the students on the topics of their choice. These topics should cover a particular aspect (fundamental, theoretical, applied) of a laser system or an application of laser (e.g. optical tweezer, high-precision metrology, high-resolution spectroscopy… etc)
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Praktikum in Thermophysikalische Eigenschaften von Arbeitsstoffen der Verfahrens- und Energietechnik [TPE-PR] -
- Dozentinnen/Dozenten:
- Thomas Koller, Michael Rausch, Andreas Paul Fröba, Tobias Klein
- Angaben:
- Praktikum, 3 SWS, Schein, ECTS: 2,5, für FAU Scientia Gaststudierende zugelassen, Registration is possible within the first lecture in "Vorlesung und Übung in Thermophysikalische Eigenschaften von Arbeitsstoffen der Verfahrens- und Energietechnik".
- Termine:
- Do, 16:15 - 18:30, AOT-Kursraum
- Studienrichtungen / Studienfächer:
- WF AOT-GL ab 1
- Voraussetzungen / Organisatorisches:
- Vorlesung und Übung in Thermophysikalische Eigenschaften von Arbeitsstoffen der Verfahrens- und Energietechnik
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Halbleitertechnologie IV - Optical Lithography: Technology, Physical Effects, and Modelling [HLT IV - LITHO-V] -
- Dozent/in:
- Andreas Erdmann
- Angaben:
- Vorlesung, 2 SWS, für FAU Scientia Gaststudierende zugelassen
- Termine:
- Do, 14:15 - 15:45, 0.111
- Studienrichtungen / Studienfächer:
- WF AOT-GL ab 1
- Inhalt:
- Semiconductor lithography covers the process of pattern transfer from a mask/layout to a photosensitive layer on the surface of a wafer. It is one of the most critical steps in the fabrication of microelectronic circuits. The majority of semiconductor chips are fabricated by optical projection lithography. Other lithographic techniques are used to fabricate lithographic masks or new optical and mechanical devices on the micro- or nanometer scale. Innovations such as the introduction of optical proximity correction OPC), phase shift masks (PSM), special illumination techniques, chemical amplified resist (CAR) materials, immersion techniques have pushed the smallest feature sizes, which are produced by optical projection techniques, from several wavelengths in the early 80ties to less than a quarter of a wavelength nowadays.
This course reviews different types of optical lithographies and compares them to other methods. The advantages, disadvantages, and limitations of lithographic methods are discussed from different perspectives. Important components of lithographic systems, such as masks, projection systems, and photoresist will be described in detail. Physical and chemical effects such as the light diffraction from small features on advanced photomasks, image formation in high numerical aperture systems, and coupled kinetic/diffusion processes in modern chemical amplified resists will be analysed. The course includes an in-depth introduction to lithography simulation which is used to devise and optimize modern lithographic processes.
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Optimization for Engineers [OptEngLec] -
- Dozent/in:
- Johannes Hild
- Angaben:
- Vorlesung mit Übung, 3 SWS, ECTS: 5
- Termine:
- Mo, 12:15 - 13:45, H16
Di, 14:15 - 15:45, H16
See StudOn
- Studienrichtungen / Studienfächer:
- WF AOT-GL ab 1
- Voraussetzungen / Organisatorisches:
- This course aims at students of the Faculty of Engineering of all disciplines and is suitable as an elective subject in the Bachelor's and Master's degree.
Requires contents of the lecture Mathematics for Engineers I, II and III. Especially:
Programming homeworks require basic knowledge in the implementation of algorithms and data structures in a development environment.
- Inhalt:
- Introduction to continuous optimization problems and methods with and without constraints
Classification of problem types
Optimality conditions and termination criterions
Descent directions and line search methods
Convergence analysis
Unconstrained optimization
Constrained optimization
Outlook
Programming Homeworks
Get in touch with GNU Octave
Implementation of optimization algorithms
Algorithmic optimization of test problems
- Empfohlene Literatur:
- Nocedal, Jorge and Wright, Stephen J.: Numerical Optimization. Springer Serie in Operations Research, 2006.
Kelley, C. T.: Iterative Methods for Optimization. Frontiers in Applied Mathematics 18, SIAM Philadelphia 1999;
Polak, E.: Optimization. Algorithms and Consistent Approximations.Applied Mathematical Sciences, Volume 124, Springer-Verlag New York, 1997.
Jarre, F.:Optimierung, Springer 2003;
Hamacher, H.W. and K. Klamroth, K.:Linear and Network Optimization: bilingual textbook. Vieweg 2000
- Schlagwörter:
- optimierung optimization
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