Introduction to particle physics and cosmology
BASIC DATA
course listing
A - main register
course code
YFX0320
course title in Estonian
Sissejuhatus osakestefüüsikasse ja kosmoloogiasse
course title in English
Introduction to particle physics and cosmology
course volume CP
-
ECTS credits
6.00
to be declared
yes
assessment form
Examination
teaching semester
autumn - spring
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
yes
Structural units teaching the course
LT - Department of Cybernetics
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Ülevaade kaasaegse osakestefüüsika ja kosmoloogia alustest. Elementaarne arusaamine kvantmehaanikast ja relatiivsusteooriast
course aims in English
Overview of contemporary particle physics and cosmology. Elementary understanding of quantum mechanics and the theory of relativity
learning outcomes in the course in Est.
Üliõpilane:
- tunneb kvantmehaanika ja relatiivsusteooria põhialuseid;
- teab, mis on Standardmudel ja milliseid osakesi me tunneme;
- oskab arvutada osakeste hajumise relativistlikku kinemaatikat ja lihtsaid ristlõikeid;
- teab tumeaine põhilisi omadusi;
- tunneb Friedmanni võrrandeid ja peamisi kosmoloogilisi mudeleid;
- mõistab algtasemel Suure Paugu kosmoloogiat.
- tunneb kvantmehaanika ja relatiivsusteooria põhialuseid;
- teab, mis on Standardmudel ja milliseid osakesi me tunneme;
- oskab arvutada osakeste hajumise relativistlikku kinemaatikat ja lihtsaid ristlõikeid;
- teab tumeaine põhilisi omadusi;
- tunneb Friedmanni võrrandeid ja peamisi kosmoloogilisi mudeleid;
- mõistab algtasemel Suure Paugu kosmoloogiat.
learning outcomes in the course in Eng.
The student:
- knows the basics of quantum mechanics and relativity;
- knows the Standard Model and existing particles;
- knows how to calculate relativistic kinematics of scattering and simple cross sections;
- knows the defining properties of dark matter;
- knows Friedmann equations and main cosmological models;
- understands Big Bang cosmology at a basic level.
- knows the basics of quantum mechanics and relativity;
- knows the Standard Model and existing particles;
- knows how to calculate relativistic kinematics of scattering and simple cross sections;
- knows the defining properties of dark matter;
- knows Friedmann equations and main cosmological models;
- understands Big Bang cosmology at a basic level.
brief description of the course in Estonian
Kiirendid, osakesed, vastastikmõjud. Kvantmehaanika alused, spinn, statistika. Relativistlik kinemaatika, lagunemine, hajumine ja ristlõige. Sümmeetria (globaalne, lokaalne), selle rikkumine, jäävusseadused. Standardmudel, kvargid ja leptonid. Standardmudeli täiendused, tumeaine, neutriinod.
Vaatluslik kosmoloogia. Gravitatsioon ja Universumi geomeetria. Kosmoloogilised mudelid ja vaatluslikud parameetrid. Kosmoloogiline konstant ja kiirenev paisumine. Universumi vanus. Tumeaine, tumeenergia. Kosmiline reliktkiirgus. Varane Universum, nukleosüntees, kosmiline inflatsioon, algne singulaarsus. Standardne kosmoloogiline mudel, üldrelativistlik kosmoloogia. Kosmilised neutriinod. Barüogenees. Struktuuriteke.
Vaatluslik kosmoloogia. Gravitatsioon ja Universumi geomeetria. Kosmoloogilised mudelid ja vaatluslikud parameetrid. Kosmoloogiline konstant ja kiirenev paisumine. Universumi vanus. Tumeaine, tumeenergia. Kosmiline reliktkiirgus. Varane Universum, nukleosüntees, kosmiline inflatsioon, algne singulaarsus. Standardne kosmoloogiline mudel, üldrelativistlik kosmoloogia. Kosmilised neutriinod. Barüogenees. Struktuuriteke.
brief description of the course in English
Accelerators, particles interactions. Basics of quantum mechanics, spin, statistics. Relativistic kinematics, particle decay, scattering, cross sections. Symmetries (global, local), their breaking, conserved quantities. Standard Model, quarks and leptons. Extensions of the Standard Model, dark matter, neutrinos.
Observational cosmology. Gravity and the geometry of the Universe. Simple cosmological models and observational parameters. Cosmological constant and accelerated expansion. Age of the Universe. Dark Matter and Dark Energy. Cosmic Microwave Background. Early Universe, nucleosynthesis, inflationary Universe, the initial singularity. Standard Cosmological Model, General Relativistic cosmology. Cosmic neutrinos. Baryogenesis. Structures in the Universe.
Observational cosmology. Gravity and the geometry of the Universe. Simple cosmological models and observational parameters. Cosmological constant and accelerated expansion. Age of the Universe. Dark Matter and Dark Energy. Cosmic Microwave Background. Early Universe, nucleosynthesis, inflationary Universe, the initial singularity. Standard Cosmological Model, General Relativistic cosmology. Cosmic neutrinos. Baryogenesis. Structures in the Universe.
type of assessment in Estonian
-
type of assessment in English
-
independent study in Estonian
-
independent study in English
-
study literature
Robert Mann, "An Introduction to Particle Physics and the Standard Model"; Andrew Liddle, "An Introduction to Modern Cosmology"; Richard Feynman, "QED"
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
4.0
lectures
-
practices
0.0
practices
-
exercises
0.0
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2024/2025 spring
Mario Kadastik, LT - Department of Cybernetics
Estonian