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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 |
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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 |