Particles and Gravity I

General data

Course ID:	1102-4`PaGr1
Erasmus code / ISCED:	13.204 Kod klasyfikacyjny przedmiotu składa się z trzech do pięciu cyfr, przy czym trzy pierwsze oznaczają klasyfikację dziedziny wg. Listy kodów dziedzin obowiązującej w programie Socrates/Erasmus, czwarta (dotąd na ogół 0) – ewentualne uszczegółowienie informacji o dyscyplinie, piąta – stopień zaawansowania przedmiotu ustalony na podstawie roku studiów, dla którego przedmiot jest przeznaczony. / (0533) Physics The ISCED (International Standard Classification of Education) code has been designed by UNESCO.
Course title:	Particles and Gravity I
Name in Polish:	Particles and Gravity I
Organizational unit:	Faculty of Physics
Course groups:	(in Polish) Przedmioty do wyboru dla doktorantów; (in Polish) Przedmioty obieralne na studiach drugiego stopnia na kierunku bioinformatyka Courses in English Physics (2nd cycle); courses from list "Selected Problems of Modern Physics" Physics (2nd level); elective courses Physics, 2nd level; Theoretical Physics
Course homepage:	http://www.fuw.edu.pl/~bohdang/wyklady/particles_and_gravity/P&G_I_11_12/PGI_11_12.html
ECTS credit allocation (and other scores):	(not available) Basic information on ECTS credits allocation principles: the annual hourly workload of the student’s work required to achieve the expected learning outcomes for a given stage is 1500-1800h, corresponding to 60 ECTS; the student’s weekly hourly workload is 45 h; 1 ECTS point corresponds to 25-30 hours of student work needed to achieve the assumed learning outcomes; weekly student workload necessary to achieve the assumed learning outcomes allows to obtain 1.5 ECTS; work required to pass the course, which has been assigned 3 ECTS, constitutes 10% of the semester student load. view allocation of credits
Language:	English
Prerequisites (description):	The course should be accessible already to 3rd year students, and fully understandable to 4th and 5th year students. There will be lecture notes available for students in a form of .pdf files. The course is taught in English. For the lecture notes and more information see the 2010/2011 course web page http://www.fuw.edu.pl/~bohdang/wyklady/particles_and_gravity/P&G_I_11_12/PGI_11_12.html .
Mode:	Classroom
Short description:	This course is intended to provide a basic link between the high-energy physics thought of as a quantum field theory and gravity understood as a theory of fluctuations of a graviton field around certain background. We shall try to introduce at elementary level tools allowing consistent description of the Standard Model degrees of freedom interacting with gravity within the framework of field theory, and at the same time to discuss the most interesting phenomena in the realm of particle physics that are sensitive to gravitational interactions.
Full description:	Course objective: Gravitational interactions are often considered to be extremely week at energies accessible in contemporary particle accelerators, hence they are usually neglected in quantitative discussions of particle physics near the electroweak scale. However, there are good reasons to go beyond this standard approach: • Cosmological applications of particle physics become increasingly relevant, and their better theoretical understanding turns out to be a pressing and demanding challenge. • Theories unifying elementary interactions, like the string theory and local supersymmetry, necessarily include gravity and electroweak and strong interactions at equal footing. Incorporation of gravity into unified picture of fundamental interactions always leads to modifications of 4-dimensional Einstein gravity. Often the electroweak interactions are also influenced by modifications of gravity and mixing between electroweak and gravitational degrees of freedom emerges. It opens up a fascinating new perspective for going beyond the Standard Model of electroweak interactions. This course is intended to provide a basic link between the high-energy physics thought of as a quantum field theory and gravity understood as a theory of fluctuations of a graviton field around certain background. We shall try to introduce at elementary level tools allowing consistent description of Standard Model degrees of freedom interacting with gravity within the framework of field theory, and at the same time to discuss most interesting phenomena in the realm of particle physics that are ensitive to gravitational interactions. Program: • Brief introduction to classical field theory • Basics of quantum field theory • Gravity as a field theory of spin 2 gravitons • The General Relativity • Experimental tests of the General Relativity • Particles in a curved spacetime • Perturbation expansion and Feynman rules for gravitational interactions The course could be considered as an independent, alternative course on gravity, however the main goal is to provide a basic knowledge needed for “Particles and Gravity II” and also for “Cosmology”.
Bibliography:	1. S. Weinberg, ``Gravitation and cosmology : principles and applications of the general theory of relativity'', 2. R. Feynman, F. Morinigo and W.~Wagner, ``Feynman Lectures on Gravitation”, 3. A. Zee, ``Quantum field theory in a nutshell'', 4. L. Landau and E. Lifshitz, ``The Classical Theory of Fields''
Learning outcomes:	A student who completes the course should have a sufficient background to study extra-dimensional theories of fundamental interactions such as for instance the Randal-Sundrum model or other extensions of the Standard Model that imply modifications of General Relativity. The course should also provide a necessary knowledge to study cosmology.
Assessment methods and assessment criteria:	Oral exam

This course is not currently offered.

Course descriptions are protected by copyright.
Copyright by University of Warsaw, Faculty of Physics.