Quantum Information Theory 2022

Topics:

• gates and circuits
• algorithms (Grover, Simon, Shor)
• quantum complexity
• entanglement
• quantum cryptography
• quantum noise
• quantum error correction
• fault tolerant quantum computation
• quantum Shannon theory

Lectures:

• time: Tue, Wed, 12 am - 1:30 pm
• location: lecture hall III
• first lecture: April 5

Problem classes:

• time: every second Wednesday, 12 am - 1:30 pm
• location: lecture hall III
• first class: April 13
• please register here
• zoom-link for online-class

Notes and recordings:

1. QM: postulates (pdf) (mp4)
2. Ensemble, mixture, density operator, joint system, partial trace, reduced density operator (pdf) (mp4)
3. Schmidt decomposition (pdf) (mp4)
4. Classical bits, gates and circuits, universal and reversible gates (pdf) (mp4)
5. Quantum bits, gates and circuits, circuit model of quantum computation (pdf) (mp4)
6. Simon's algorithm (pdf) (mp4)
7. Quantum Discrete Fourier Transform (pdf) (mp4)
8. Some number theorry for RSA-encryption and Shor's algorithm (pdf) (mp4)
9. Shor's algorithm (mp4)
10. Grovers's algorithm (mp4)
11. Turing machines and computability (pdf) (mp4)
12. Computational Complexity (pdf) (mp4)
13. BPP and BQP (pdf) (mp4)
14. Gate accuracy and universal quantum gates (pdf) (mp4)
15. Shor's 1-9 error correcting code (pdf) (mp4)
16. Quantum operations (pdf) (mp4)
17. Quantum Error Correction (pdf) (mp4)
18. Quantum Error Correction II (pdf) (mp4)
19. Fault tolerant quantum computation (mp4)
20. Quantum Coding Theorem (mp4)
21. Einstein-Podolsky-Rosen Paradoxon, Bell inequalities (pdf) (mp4)
22. Quantum-key-distribution, teleportation, entanglement-distillation, von-Neumann entropy as entanglement measure, entanglement of random states (pdf) (mp4)

Problem sheets:

sheet1 - solution 0.1.2. - solution 3.
sheet2 - solutions 4.-8.
sheet3 - solutions 9.-11.
sheet4 - solutions 12.14.15.
sheet5
sheet6 - solutions 20.22.

Literature:

• Nielsen and Chuang, Quantum Computation and Quantum Information (Cambridge)
• John Watrous, The Theory of Quantum Information (Cambrigde)
• Mark Wilde, Quantum Information Theory (Cambridge)

• Ronald de Wolf, Quantum Computing: lecture notes
• John Preskill, Lecture notes on quantum computation