The lectures take place in the Huygens building #414 on Wednesdays from 9:00 - 10:45hr. The exercises are held in the same room on Mondays from 13:45 - 15:30hr. For exceptions see detailed schedule below.
The course starts on 12 September and ends on 14 December, 2011. The course language is English.
The lecturer is Dr. Bernhard Brandl, office: #535 (Oort building), phone (071) 527-5830, email. The teaching assistant is Nienke van der Marel, office: #508, email.
Nowadays, astronomical observations are increasingly demanding in terms of sensitivity, image contrast, field of view, stability and calibrations, pushing telescopes and instrumentation closer and closer to their limits. Meaningful results require a careful understanding of the technologies and equipment that is being used. This course provides a general overview of most aspects that are relevant to observational astronomy, covering both the underlying physical principles and the technical concepts. In addition, the theoretical concepts of image signal processing are being discussed and practical exercises will be held. The lectures are structured as follows:
The lectures will be accompanied by detailed handout notes. There is a list of suitable books (below) that are strongly recommended for further study. However, based on the experience from previous years, there is no book that covers all course topics in sufficient detail. Hence, this course does not require the purchase of a single text book. For further reading it is recommended to have a look at the following books in the library:
The course is intended for 3rd year Bachelor students, and assumes two years of successful studies in Astronomy. Credits: 6 EC points.
The grades will be determined from a written exam on Wednesday, 25 January 2012.
The exam will consist of three parts: I. Calculations, II. Qualitative explanations, and III. Multiple choice questions. The content of the exam will be largely based on the topics of the weekly exercises. It is therefore highly recommended to attend the weekly exercises.
|
Date |
Lecture topic |
Book reference (cf. list above) |
Basics of Observational Astronomy |
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|
12-Sep-11 |
Introduction, Radiometry (radiometry, black bodies, flux and magnitudes) |
Chromey §§10.2-10.5, Wolfe §§2, 15, Lena §3 |
|
14-Sep-11 |
Properties of radiation (coherence, polarization) and Atmospheric properties (transmission, emission, scattering, refraction, dispersion, turbulence, seeing, ...) | Chromey §10.6, §5.4.2, Lena §§2, 4.4, Roddier §2 |
|
19-Sep-11 |
Exercises on radiation (solutions) |
|
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21-Sep-11 |
No lecture | |
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26-Sep-11 |
Exercises on atmospheric properties (solutions) |
|
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28-Sep-11 |
Telescopes (reflector, refractor, mounts, foci, ground/space telescopes) |
Chromey §6, Lena §4.3, Bely §§4.5.1, 6.5, 12.5-12.6, Schroeder §§6-9 |
|
03-Oct-11 |
No exercises |
|
Theoretical Background |
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05-Oct-11 |
Noise, S/N, and instrument sensitivities | Chromey §2, Lena §6, Schroeder §§17.2-17.3, Bracewell §10 |
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10-Oct-11 |
Exercises on telescopes and S/N (solutions) | |
|
12-Oct-11 |
Fourier transform (definition, properties, 1D and 2D examples, theorems) | Lena §App.A, Bracewell §§2-6, 9-10, 13, 22 |
17-Oct-11 |
Exercises on Fourier transforms (solutions) | |
19-Oct-11 |
Geometrical and diffraction optics (basics, aberrations, PSF, SR, EE ...) | Chromey §5, Schroeder, §2, 4, Bely §§4.1-4.4, 5, Lena §4.2, Schroeder §§10-11 |
24-Oct-11 |
Exercises on optics (solutions) & Introduction to optical design and homework | |
Specific Techniques and Components |
||
26-Oct-11 |
Detectors (basic principles of photo-conductors) | Chromey §§7-9, Rieke §§all, McLean §§7-9, 11-13 |
31-Oct-11 |
Exercises on detectors (solutions) | |
02-Nov-11 |
No lecture (due to exams later in the week) | |
07-Nov-11 |
No exercises (due to optical design homework) | |
09-Nov-11 |
Detectors cont'd (bolometers, heterodyne detectors) | Chromey §§7-9, Rieke §§all, McLean §§7-9, 11-13 |
14-Nov-11 |
No werkcollege but homework on detectors (solutions) | |
16-Nov-11 |
Spectrometers (spectral information, dispersing elements, types of spectrometers, spectral analysis) | Chromey §11, Lena §5, Schroeder §§12-15 |
21-Nov-11 |
Exercises on spectrometers (solutions) | |
23-Nov-11 |
Adaptive Optics (principle, components, laser guide stars, types of AO) | Chromey §§6.5-6.6, Roddier §§all, Lena §4.4, Bely §8 |
28-Nov-11 |
Exercises on spectrometers (solutions) | |
30-Nov-11 |
AO cont.'d (principle, components, fringes, limitations, types, ...) | |
08-Dec-11 11:15-13:00 HL214 |
Exercises on adaptive optics and interferometry (solutions) | |
09-Dec-11 09:00-10:45 HL414 |
Interferometry and Intro to "One night at the telescope ..." | Lena §4.3, Quirrenbach ARA&A, Bedding_intro |
12-Dec-11 |
Exercises on a planned observation | |
14-Dec-11 |
One night at the telescope ... | All |
12-Jan-12 14:00, HL414 |
Summary lecture |
All |
25-Jan-12 10:00-13:00 HL106 |
Exam |
|
21-Mar-12 |
Field trip to Westerbork (WRST) and Astron |
Exam grades:
