Universitaet Dortmund

Dieter Suter, Joachim Stolze
Quantum Computing WS15 / SS16
Vorlesung: Do 08:30 - 10:00 HG II / HS 4
Für Studierende der Fakultäten Physik und Informatik ab 6. Semester, Master-Studierende und Doktoranden
Quantum computers use quantum mechanical systems to store and process information. By processing superpositions of states in parallel, their computing power is exponentially larger than that of classical computers for certain problems.

The lecture will be based on the book 'Quantum Computing - A Short Course from Theory to Experiment'
The following topics will be covered:
1) Introduction
2) Physics of computation
3) Elements of classical computer science
4) Quantum mechanics
4.4) Entanglement measures
5) Quantum bits and quantum gates
6) Feynman's contribution
7) Errors and decoherence
8) Tasks for quantum computers
9) How to build a quantum computer
10) Liquid-state NMR quantum computers
11) Trapped ions and atoms
12) Solid state quantum computers
13) Quantum communication

Anmeldung zur Prüfung im LSF.
This is a list of errors in the book - Please let us know if you discover more !
Additional literature on the subject
This page illustrates how the operation of a quantum computer differs from that of a classical computer.
Links:
Physics department TuDO
Quantencomputing in E3
E3 homepage
J. Stolze's homepage
IBM quantum experience (online-experimne)
Lecture notes and tutorials
USEQIP : Undergraduate School on Experimental Quantum Information Processing at the University of Waterlooe
Lecture notes of John Preskill (Caltech)
Lecture notes of Umesh Vazirani (UC Berkeley)
Tutorial by Samuel Braunstein
Los Alamos Science Information, Science, and Technology in a Quantum World
QI research in Europe
Websites
The age of the qubit (IOP)
Journals
Annalen der Physik: Topical issue on quantum simulations
Quantum Information Processing
Quantum Information and Computation
International Journal of Quantum Information
Natural Computing
International Journal of Nanoscience
Jobs
Todd Brun's site at USC