Design of Instruments and Optomechanics II (FSI-TK2)

Academic year 2022/2023
Supervisor: prof. Ing. Ivan Křupka, Ph.D.  
Supervising institute: ÚFI all courses guaranted by this institute
Teaching language: Czech
Aims of the course unit:
The aim of the course is to acquaint students with the principles and design of optomechanical assemblies in the fields of light microscopy, holography, spectroscopy and scatterometry with optimal use of computers. Students will learn the properties of real optomechanical assemblies and their combinations. They will also be able to use the acquired skills and knowledge in the field of design, geometric and wave optics when designing optomechanical systems.
Learning outcomes and competences:
This course enables students to acquire knowledge of the design of advanced optomechanical instruments and devices with respect to the correct mechanical and optical functionality. Students will be systematically acquainted with advanced optical instruments, their construction, adjustment and overall approach to this field, so that they can design these instruments.
Prerequisites:
Design of instruments and optomechanics I
Course contents:
The course acquaints students with advanced design solutions of optomechanical instruments. Special attention is paid to microscope systems, interference and holographic instruments, devices for spectroscopy and systems for scatterometry. Students will be acquainted with design solutions of these optical systems and devices so that they are able to design optical instruments based on knowledge of principles.
Teaching methods and criteria:
The course is taught in the form of lectures that have the character of explanation of basic principles and theory of the given discipline. The exercises are focused on practical mastery of the subject matter covered in the lectures.
Assesment methods and criteria linked to learning outcomes:
Active participation in seminars and three written tests.
Exam: written.
Controlled participation in lessons:
Attendance at seminars is obligatory and is monitored by the teacher. The way of compensating missed lessons will be determined by the teacher based on the extent and content of missed lessons.
Type of course unit:
    Lecture  13 × 2 hrs. optionally                  
    Computer-assisted exercise  13 × 3 hrs. compulsory                  
Course curriculum:
    Lecture 1. Light microscope, design of illumination part
2. Light microscope, design of the imaging part
3. Fluorescence microscopy, design of fluorescence module
4. Confocal microscope with a laser source, and its design, scanning systems
5. Interference microscopes and their selected designs
6. Holographic microscopes and their selected designs
7. Interference and holographic modules, their selected designs
8. Advanced microscope systems
9. Spectroscopes and their selected designs
10. Optomechanics in assemblies for laser ablation
11. Imaging spectroscopic reflectometer, its design, function, and using
12. Scatterometer, its design, function, and using
    Computer-assisted exercise Computer aided education lectures - design of selected optical devices.
Literature - fundamental:
1. Harna, Z.: Přesná mechanika.
2. Keprt, E.: Teorie optických přístrojů I,II
3. Havelka, B.: Geometrická optika II
4. Glézl, Š.-Kamarád, J.-Slimák, I.: Presná mechanika
5. Van Hell,AC.s.: Advanced Optical Techniques
6. Yoder, P.: Mounting optics in optical instruments, SPIE Bellingham, 2008
7. Edwards, K., McKee R.: Fundamentals of mechanical component design, McGraw-Hill, 1991.
8. Tryliński, W.: Fine mechanisms and precision instruments: principles of design. Pergamon, 1971.
9. Wilson T. (1994) Confocal Microscopy. In: Yacobi B.G., Holt D.B., Kazmerski L.L. (eds) Microanalysis of Solids. Springer, Boston, MA
10. TÖRÖK, Peter; KAO, Fu-Jen (ed.). Optical imaging and microscopy: techniques and advanced systems. Springer, 2007.
Literature - recommended:
1. Harna, Z.: Přesná mechanika.
2. Keprt, E.: Teorie optických přístrojů I,II
3. Glézl, Š.-Kamarád, J.-Slimák, I.: Presná mechanika
4. Wilson T. (1994) Confocal Microscopy. In: Yacobi B.G., Holt D.B., Kazmerski L.L. (eds) Microanalysis of Solids. Springer, Boston, MA
5. TÖRÖK, Peter; KAO, Fu-Jen (ed.). Optical imaging and microscopy: techniques and advanced systems. Springer, 2007.
The study programmes with the given course:
Programme Study form Branch Spec. Final classification   Course-unit credits     Obligation     Level     Year     Semester  
CŽV full-time study CZV Bases of Mechanical Engineering -- Col 7 Compulsory-optional 1 1 S
N-PMO-P full-time study --- no specialisation -- Cr,Ex 7 Compulsory 2 1 S
N-FIN-P full-time study --- no specialisation -- Col 7 Compulsory-optional 2 1 S