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Mathematical Foundations of Quantum Information (WiSe 26/27)
Quantum Information Theory is a rapidly growing field of research at the intersection of mathematics, computer science and physics. While its origins are closely connected to quantum mechanics, many of its central concepts can be studied from a rigorous mathematical perspective. This makes the field accessible from different backgrounds and opens the door to a wide range of applications, from quantum computing and quantum communication to quantum-inspired methods that can already be implemented on classical computers.
This lecture provides a mathematical introduction to Quantum Information Theory. The aim is to develop the fundamental language and structures needed to understand quantum information, with an emphasis on clear definitions, precise formulations and basic examples. Starting from the mathematical framework underlying quantum systems, we will gradually build towards central notions such as quantum states, transformations, correlations and information-theoretic quantities. Towards the end of the course, we will also indicate how these concepts enter quantum algorithms and related topics in quantum information.
No prior knowledge of physics is required. This lecture is part of the curriculum in the new Master's programme “Quanteninformationstheorie”.
More specifically, the lecture will cover:
- Repetition of Complex numbers, Hilbert spaces, linear operators on Hilbert spaces, tensor products
- Basics of Quantum Computing
- Non-cloning theorem
- Quantum teleportation
- Partial traces and measurements
- Quantum channels
- Basics of Quantum algorithms
- Optional: Concepts of entropy
Lecture and Exercise Sessions
| Lecturer | Prof. Dr. Moritz Weber (Room 310 in E2 4) |
| Assistant | Jonas Metzinger (Room 430 in E2 4) |
| Lecture time | Tuesdays 10-12 and Thursdays 10-12 in TBA |
| Exercise sessions | To be announced, weekly |
The course will be taught in English unless all participants speak German.
For any questions regarding the course, please contact Jonas Metzinger.
Prerequisites
No prior knowledge of physics is required. We expect participants to be familiar with the material covered in the Saarland University lectures „Math for Computer Scientists 1-3" or similarly „Analysis 1-2" + „Linear Algebra 1".
This lecture is part of the curriculum in the new Master's programme "Quantum Information Theory". However, it is also open for BSc/MSc/"Lehramt" students in Mathematics, Computer Science, Physics or related fields. Please double check with us, in case you want to earn credit points within a study program different from the MSc Quantum Information Theory.
Exam and admission requirements
The course is worth 9 CP. The examination will be either written or oral; the format will be announced during the semester.
To be admitted to the examination, students must obtain at least 50% of the total points available on the exercise sheets.
Literature
- Nielsen, Michael A. and Chuang, Isaac. Quantum Computation and Quantum Information, 2010.
- Rieffel, Eleanor and Polak, Wolfgang. Quantum Computing: A Gentle Introduction, 2014.
- Watrous, John. The Theory of Quantum Information, 2018.
- Watrous, John. Understanding Quantum Information and Computation, with lectures on Youtube, 2025
- de Wolf, Ronald. Quantum Computing: Lecture Notes, 2023 arXiV
- Wilde, Mark. Quantum Information Theory, 2017.
- Lenze, Burkhard. Mathematik und Quantum Computing, 2018
See also in the Semesterapparat.
