The result of a lecture series, this textbook is oriented towards students and newcomers to the field and discusses theoretical foundations as well as experimental realizations in detail. The authors are experienced teachers and have tailored this book to the needs of students. They present the basics of quantum communication and quantum information processing, leading readers to modern technical implementations. In addition, they discuss errors and decoherence as well as methods of avoiding and correcting them. Endlich ein Lehrbuch zum Thema Quanten-Computing, das auch die experimentelle…mehr
The result of a lecture series, this textbook is oriented towards students and newcomers to the field and discusses theoretical foundations as well as experimental realizations in detail. The authors are experienced teachers and have tailored this book to the needs of students. They present the basics of quantum communication and quantum information processing, leading readers to modern technical implementations. In addition, they discuss errors and decoherence as well as methods of avoiding and correcting them. Endlich ein Lehrbuch zum Thema Quanten-Computing, das auch die experimentelle Umsetzung ausführlich diskutiert! Didaktisch geschickt haben die Autoren, erfahrene Lehrkräfte, die Grundlagen der Quantenkommunikation und der Quanten-Informationsverarbeitung aufgearbeitet. Sie führen den Leser weiter zu modernen technischen Implementationen. Fehlerquellen und Dekohärenzphänomene werden ebenso besprochen wir Methoden zu ihrer Vermeidung und Korrektur.
J. Stolze, University of Dortmund, Physics Department, Dortmund, Germany; D. Suter, University of Dortmund, Physics Department, Dortmund, Germany Prof. D. Suter is an experimentalist and well known for his NMR-work and currently working on quantum computation projects. He worked with Nobel laureate Ernst RR in Zurich. Also Prof. J. Stolze is known to be a good teacher. As a theorist, his topic research area is quantum spin chains.
Inhaltsangabe
From the contents: 1. Introduction and Survey 2. Physics of computation 3. Elements of classical computer science 4. Quantum Mechanics 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 computer 11. Solid state quantum computers 12. Quantum communication A. Two spins 1/2:Singlet and triplet states
From the contents: 1. Introduction and Survey 2. Physics of computation 3. Elements of classical computer science 4. Quantum Mechanics 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 computer 11. Solid state quantum computers 12. Quantum communication A. Two spins 1/2:Singlet and triplet states
Rezensionen
"It's a very good book - it's by far the best textbook at this level, and will become the principal text for our new course." (Jonathan Jones Oxford Centre for Quantum Computation 2004)"Generell ist den Autoren die Verbindung unterschiedlicher Bausteine zu einem tragfähigen Ganzen fachlich und didaktisch geglückt...ein nützliches Buch, das den von seinen Autoren intendierten Zweck ohne Zweifel erfüllt." (Physik in unserer Zeit)
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