141.B21 Quantum information theory II
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2022S, VO, 2.0h, 3.0EC

TUWEL course

Properties

Semester hours: 2.0
Credits: 3.0
Type: VO Lecture
Format: Presence

Learning outcomes

After successful completion of the course, students are able to read and comprehend current research in quantum information theory. Especially multipartite and high-dimensional quantum systems will be covered.

Subject of course

Continuous and many-body quantum states, quantum channels, entropies and state representations, device-independent characterisation with correlations

Teaching methods

Lecture with active students' participation.

Mode of examination

Oral

Additional information

Initial discussion on 10.03 11:00 in the seminar room of the new building at ATI

5 & 29 March - 16:00 Quantum Shannon Theory 28 April & 5 May - 9:30 Many-body entanglement, Bloch representation and Entropy 03 & 10 May - 16:00 Bell inequalities and semidefinite programming 24 & 31 May - 16:00 Continuous variable quantum information

Lecturers

Institute

E141 Atomic and Subatomic Physics

Examination modalities

Short oral presentation of a pre-selected course topic and another short oral presentation about an on-site selected course topic.

Course registration

Not necessary

Curricula

Study Code	Obligation	Semester	Precon.	Info
066 461 Technical Physics	Not specified
810 FW Elective Courses - Technical Physics	Not specified

Literature

No lecture notes are available.

Previous knowledge

VO 141.B09 or basic knowledge of quantum information theory

Preceding courses

141.B09 VO Quantum information theory

Language

English