Variable stars

Duration

20h Th, 10h Pr

Number of credits

Lecturer

Grégor Rauw

Language(s) of instruction

English language

Organisation and examination

Teaching in the first semester, review in January

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

In astrophysics you are only allowed to watch your targets, you cannot manipulate them in a lab. Therefore, it is important to gather as much information as possible to understand the nature of the objects that are being investigated. In this context, temporal variability provides a precious tool.
In this course, the observational properties of many different categories of variable stars (including single and multiple objects) are presented. Various techniques to study these objects are described and the latest models derived from these observations are presented.
An important part of the course deals with multiple systems harbouring two or more stars. We consider the techniques used to infer fundamental stellar parameters (masses, radii,...) from the study of spectroscopic and eclipsing binaries. We also discuss interacting binaries, such as cataclysmic variables, novae, X-ray binaries,... For single stars, the lectures focus on the different categories of pulsating stars across the Hertzsprung-Russell diagram as well as their period-luminosity relations. The variability of massive stars, mainly due to structures in their stellar winds, is also described. Finally, we address some categories of late-type stars that display variability: R Corona Borealis stars, pre-main sequence stars and active, flaring objects.

Learning outcomes of the learning unit

After completing this course, the students will be able to answer notably three major questions:

• What are the general properties of variable stars and how can they be used to better understand the processes in the Universe?
• How to extract the most relevant information from spectroscopic time-series and/or from photometric light curves?
• How to interpret the observed variability?

Prerequisite knowledge and skills

Good knowledge of mathematics, physics and classical mechanics.

Planned learning activities and teaching methods

During one or two hand-on session(s), the students have the opportunity to analyze the light curve of an eclipsing binary system and/or the radial velocity curve of a spectroscopic binary using dedicated software.
Based on the techniques taught during the hand-on sessions , the students will complete a personal project consisting either of the preparation of new observations of a variable star with the TIGRE robotic telescope, or of the analysis of such observations.

Mode of delivery (face to face, distance learning, hybrid learning)

The face-to-face lectures are usually scheduled as 3h/week during the first semester. The course is only offered during uneven years.

Organisational adjustments related to the current health context

N/A in 2020.

Recommended or required readings

The lecture notes are provided in English as a pdf file.

Assessment methods and criteria

Below you will find information on the evaluation methods planned for in-person and remote exams as well as those planned for hybrid sessions. Depending on how the health crisis evolves, the chosen method will be communicated to you no later than one month before the start of the exam session.

The evaluation emphasizes the understanding of the course and the ability to use the techniques that have been taught. To successfully pass the exam students have to learn and understand the course.
The assessment is composed of two parts: 33% based upon a short report on the personal project  and another 67% based upon an oral examination.

Work placement(s)

Organizational remarks

The course is offered once every two years: uneven academic years (e.g. 2015 - 2016).

Contacts

Prof. Gregor Rauw Institut d'Astrophysique et Géophysique, Bât. B5c Allée du 6 Août, 19c 4000 Liège
Tel. +32-(0)4 366 9740 e-mail: g.rauw@uliege.be