Astronomical Telescopes and Instruments
- Yes Elective choice
- No Contractonderwijs
- Yes Exchange
- Yes Study Abroad
- No Evening course
- No A la Carte
- No Honours Class
The course requires knowledge of optics (geometrical optics, physical optics, interference, diffraction), Fourier transforms, astronomical observing techniques and computer programming. Students who have not followed the bachelor's course Astronomical Observing Techniques (AOT) must follow the AOT crash-course during the first week.
This course provides the fundamental understanding of how modern astronomical telescopes and optical instruments work and how they are designed; it is the cornerstone of the Astronomy and Instrumentation master's specialisation.
The first part of the course is focused on the fundamental physics that is relevant to understand the intricacies of modern optical instruments with a focus on the assumptions that are typically made. The second part applies this knowledge to optical components and optical design. The third part covers specific instrument categories that are typically found at astronomical observatories.
Students will write their own codes and use optical design software to apply their knowledge. Each student will present a specific instrument described in the literature to provide the class with insight into actual astronomical instruments.
The lectures and exercises cover the following topics:
- Foundations of optics
- Interference, diffraction and Fourier optics
- Geometrical optics
- Thin films and coatings
- Optical design
- Classical spectrographs
- Advanced spectrographs
Upon completion of this course, students will be able to design their own optical telescopes and instruments.
In particular, students will be able to:
- Explain the fundamental optics principles used in modern astronomical instruments
- Calculate the performance of simple optical systems
- Design simple optical systems given certain specifications
- Model the performance of thin-film coatings
- Explain the respective advantages and disadvantages of different telescope designs
- Model different telescope concepts
- Explain the advantages and disadvantages of different imager and spectrograph designs
- Simulate polarimeters for coherent and incoherent light
In this course, students will be trained in the following behaviour-oriented skills:
- Problem solving (recognizing and analyzing problems, solution-oriented thinking)
- Analytical skills (analytical thinking, abstraction, evidence)
- Verbal communication (presenting, speaking, listening)
- Critical thinking (asking questions, check assumptions)
Mode of instruction
- Exercise classes
- Practical classes
- Written exam: 60%, see the Astronomy master examination schedules
- Homework assignments: 20%
- Presentation: 20%
Retake exams will be oral. Homework assignments and presentation will still count for the final grade.
Blackboard will be used to communicate with students. To have access, you need an ULCN account. More information:
Recommended but not mandatory:
* Field Guide to Astronomical Instrumentation, by Keller, Navarro, Brandl, published by SPIE
* Optics, by Eugene Hecht, published by Addison Wesley
Please note that this is a mandatory course for all master's students who follow the Astronomy and Instrumentation specialisation.
|Is part of||Programme type||Semester||Block|
|Astronomy and Business Studies||Master||1|
|Astronomy and Cosmology||Master||1|
|Astronomy and Data Science||Master||1|
|Astronomy and Education||Master||1|
|Astronomy and Instrumentation||Master||1|
|Astronomy and Science Communication and Society||Master||1|