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44695-01 - Lecture with practical courses: Theory of quantum information, communication and computing 4 CP

Semester	fall semester 2018
Course frequency	Every fall sem.
Lecturers	Nicolas Sangouard (nicolas.sangouard@unibas.ch, Assessor) Roman Schmied (roman.schmied@unibas.ch)
Content	Advanced course on quantum information with a special emphasize on quantum communication and quantum computing. The communication part includes 1-Qubit algebra 2-Bipartite system 3-Bell non-locality 4-State certifications from Bell tests 5-Quantum key distribution from Bell tests The quantum computing part includes 1-Classical and quantum computation 2-Quantum gates and circuits 3-Quantum algorithms 4-Factoring an integer with a quantum computer
Learning objectives	Understand how the fundamental principles of quantum theory provides an ultimate form of security for communications. Understand the capabilities of fault-tolerant quantum computers. Ability to access and use current devices.
Bibliography	Nielsen and Chuang, quantum computation and quantum information, Cambridge University press (2000)
Comments	Basic notion of linear algebra/quantum mechanics is a plus but not mandatory

Language of instruction	English
Use of digital media	No specific media used
Course auditors welcome

Interval	Weekday	Time	Room

No dates available. Please contact the lecturer.

Modules	Module Specialisation: Physics (Master's Studies: Nanosciences) Module: Specialisation: Physics (Master's Studies: Physics)

Assessment format	continuous assessment
Assessment registration/deregistration	Reg.: course registration, dereg: cancel course registration
Repeat examination	no repeat examination
Scale	1-6 0,5
Repeated registration	as often as necessary
Responsible faculty	Faculty of Science, studiendekanat-philnat@unibas.ch
Offered by	Departement Physik

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