Hans Martin Schmid: Catalogue data in Autumn Semester 2022 |
| Name | Prof. em. Dr. Hans Martin Schmid |
| Field | Astronomie |
| Address | Inst. f. Teilchen- und Astrophysik ETH Zürich, HIT J 31.3 Wolfgang-Pauli-Str. 27 8093 Zürich SWITZERLAND |
| Telephone | +41 44 632 73 86 |
| schmid@astro.phys.ethz.ch | |
| Department | Physics |
| Relationship | Retired Adjunct Professor |
| Number | Title | ECTS | Hours | Lecturers | |
|---|---|---|---|---|---|
| 402-0300-00L | IPA Colloquium  | 0 credits | 1S | A. Biland, A. de Cosa, A. Refregier, H. M. Schmid, further lecturers | |
| Abstract | Research colloquium | ||||
| Learning objective | |||||
| 402-0351-00L | Astronomy | 2 credits | 2V | H. M. Schmid, A. M. Glauser | |
| Abstract | An overview of important topics in modern astronomy: planets, sun, stars, milky way, galaxies, and cosmology | ||||
| Learning objective | This lecture gives a general introduction to main topics in modern astronomy. The lecture provides a basis for the more advanced lectures in astrophysics. | ||||
| Content | Planeten, Sonne, Sterne, Milchstrasse, Galaxien und Kosmologie. | ||||
| Lecture notes | Kopien der Präsentationen werden zur Verfügung gestellt. | ||||
| Literature | Der Neue Kosmos. A. Unsöld, B. Baschek, Springer Oder sonstige Grundlehrbücher zur Astronomie. | ||||
| 402-0352-00L | Astronomical Observations and Instrumentation Does not take place this semester. | 6 credits | 2V + 1U | H. M. Schmid, L. Harra | |
| Abstract | Astronomical techniques and observing strategies are presented with a particular emphasis on currently available professional telescopes of the European Southern Observatory. | ||||
| Learning objective | The course shall provide a basic understanding of the potential and limitation of different types of modern astronomical observations for early career researchers. The course will present technical aspects which are important to prepare, to carry out and to calibrate different types of astronomical measurements: photometry, spectroscopy, astrometry, polarimetry and others. Many practical examples will be discussed including methods for the detection of physical samples of cosmic dust. Also scientific aspects of instrumental projects and observational programs are addressed. An opportunity to contribute to solar spacecraft operations will be available during the course. | ||||
| Content | 1. Introduction: research projects in astronomical observations 2. Observables: electromagnetic radiation, particles 3. Optical telescopes: Opitcs, types, mechanical concepts, examples 4. Detectors: CCDs, IR detectors, basic data reduction steps 5. Photometry: signal extraction, calibration, faint sources, etc. 6. Spectroscopy: spectrographs, calibration, spectral features 7. Introduction to solar space instrumentation 8. Space observations of cosmic dust: introduction, remote sensing, in situ instruments, sample return, calibration, data analysis and practical examples 9. Speckles and adaptive optics: atmosphere, AO-systems 10. Polarimetry: measuring principles 11. Interferometry | ||||
| Lecture notes | Notes will be distributed. | ||||
| Literature | Astrophysical Techniques, C.R. Kitchin, 2009 (5th edition), CRC Press Astronomical Observations, Gordon Walker, 1987, Cambridge University Press (a bit outdated) | ||||