Conducted in
term:
2021/22L
ISCED code: 0533
ECTS credits:
3
Language:
English
Organized by:
Faculty of Physics, Astronomy and Informatics
Introduction to open quantum systems 0800-INQUAN
This course has not yet been described...
Total student workload
Contact hours:
- lecture: 30 hours
Own working hours:
- preparation for lectures: 15 hours
- preparation for the exam: 25 hours
TOTAL: 70 hours (3 ECTS)
Learning outcomes - knowledge
K_W01 has in-depth knowledge of advanced mathematics and mathematical methods necessary to solve physical problems in the theory of open quantum systems
K_W04 has in-depth detailed knowledge of physics in the field of open quantum systems theory
Learning outcomes - skills
K_U01 is able to apply the scientific method in solving problems, carrying out experiments and making conclusions
K_U03 is able to make a critical analysis of the results of theoretical calculations and to formulate and test hypotheses as to the compatibility of models with experience
K_U09 has language skills in the field of science specific to physics, in accordance with the requirements set out for the B2 + level of the European System for the Description of Languages
K_U11 is able to define directions for further improvement of knowledge and skills (including self-education) in the field of a selected specialization and beyond, and to direct the education of others, is able to precisely formulate questions, understand the need for further education
Learning outcomes - social competencies
K_K01 knows the limitations of his own knowledge and understands the need to consult experts in case of difficulties with solving the problem on his own
Teaching methods
informative lecture (conventional)
Expository teaching methods
- informative (conventional) lecture
Type of course
elective course
Prerequisites
Basics of mathematical analysis, linear algebra, quantum mechanics
Course coordinators
Assessment criteria
written exam or project assignment
Bibliography
M. A. Nielsen and I. L. Chuang, Quantum Computation and Quantum Information, Cambridge University Press, Cambridge 2010.
I. Bengtsson and K. Życzkowski, Geometry of Quantum States: An Introduction to Quantum Entanglement, Cambridge University Press, Cambridge 2017.
H.-P. Breuer and F. Petruccione, The Theory of Open Quantum Systems, Oxford University Press, Oxford 2007.
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: