The Early Universe
Course content
The aim of the course is to familiarize students with modern theories of cosmology and particle physics in the early universe and how they explain the formation of matter and the present evolution of our universe. The course will cover the thermal history of the early universe, the theory of inflation, evidence for dark matter and dark energy, and the growth of structure and the formation of galaxies. Students will gain experience in interpreting data and an overview of classic scientific literature. The course will establish a solid foundation for a M.Sc. project in cosmology, astrophysics or particle physics.
Knowledge
To achieve the goals of the course and exam the students should be able to describe:
- The dynamical evolution of the expanding universe in the standard cosmological model and its dependence on the matter and energy content of the universe
- The motivation for inflation and its physical consequences
- The Hot Big Bang and the thermal history of the universe
- The origin and basic interpretation of the Cosmic Microwave Background (CMB)
- Examples of evidence for Dark Matter and Dark Energy and possible explanations for their origin
- Basic principles of structure formation and galaxy formation
Skills
The student is expected to gain the ability to:
- Perform analytic and numerical calculations of the dynamics of an expanding universe
- Perform numerical calculations of structure formation in a range of cosmological models
- Summarise and critically interpret fundamental scientific articles within the field
Competences:
The course will provide students with an overview of the
connections between modern cosmology, astrophysics and particle
physics. Students will gain the knowledge and skills to be able to
critically evaluate the standard cosmological model, observational
evidence for the model and its limitations, in preparation for MSc
projects.
Lectures and exercises, including computer exercises, student presentations.
See Absalon for final course material. The following is an example of expected course literature:
D. Bauman, “Cosmology”, 2022
J. Peacock, “Cosmological Physics”, 2010
General skills in mathematics and computation, atomic and
nuclear physics are required according to the MSc program in
Physics.
A BSc course on cosmology and an advanced course on particle
physics are recommended for basic knowledge.
Academic qualifications equivalent to a BSc degree are
recommended.
- ECTS
- 7,5 ECTS
- Type of assessment
-
Continuous assessmentWritten assignment, 9 hours
- Type of assessment details
- The final grade will be based on three components:
(i) 7 homework assignments (1/3 of the final grade)
(ii) Presentation of a scientific article (1/3 of the final grade)
(ii) Take-home exam (1/3 of the final grade)
Students must take part in every component in order to pass the course (including all homework assignments). Students do not need to pass every part of the 3 exam components separately, it is enough to pass overall. However, investing the time in doing the homework assignments is considered to be a crucial part of the learning experience for this course and the points gathered from these do carry 1/3 of the final grade. - Aid
- All aids allowed
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
Several internal examiners
- Re-exam
-
Same as ordinary exam. The student can re-use any parts of the exam that were already passed. For missing homework assignments, contact the course coordinator for new assignments to submit. For missing presentation, a new presentation can be held in the re-exam week. For a missing take-home exam, a new exam is held in the re-exam week.
Criteria for exam assessment
The student should convincingly and accurately demonstrate the knowledge, skills and competences described under learning outcome.
Single subject courses (day)
- Category
- Hours
- Lectures
- 42
- Preparation
- 132
- Practical exercises
- 24
- Exam
- 8
- English
- 206
Kursusinformation
- Language
- English
- Course number
- NFYK23006U
- ECTS
- 7,5 ECTS
- Programme level
- Full Degree Master
- Duration
-
1 block
- Placement
- Block 4
- Schedulegroup
-
A
- Capacity
- No limitation – unless you register in the late-registration period (BSc and MSc) or as a credit or single subject student.
- Studyboard
- Study Board of Physics, Chemistry and Nanoscience
Contracting department
- The Niels Bohr Institute
Contracting faculty
- Faculty of Science
Course Coordinator
- Charlotte Mason (15-70756e7f797c8181723b7a6e807c7b4d7b6f763b78823b7178)
Teacher
Charlotte Mason
Oleg Ruchayskiy
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