[en] Chaos implies unpredictability, fluctuations, and the need for statistical modelling. Quantum optics has developed into one of the most advanced subdisciplines of modern physics in terms of the control of matter on a microscopic scale, and, in particular, of isolated, single quantum objects. Prima facie, both fields therefore appear rather distant in philosophy and outset. However, as we shall discuss in the present review, chaos, and, more specifically, quantum chaos opens up novel perspectives for our understanding of the dynamics of increasingly complex quantum systems, and of ultimate quantum control by tailoring complexity.
Disciplines :
Physics
Author, co-author :
Madronero, Javier
Ponomarev, Alexey
Carvalho, Andre R R
Wimberger, Sandro
Viviescas, Carlos
Kolovsky, Andrey
Hornberger, Klaus
Schlagheck, Peter ; Université de Liège - ULiège > Département de physique > Physique quantique statistique
Krug, Andreas
Buchleitner, Andreas
Language :
English
Title :
Quantum chaos, transport, and control - In quantum optics
Publication date :
2006
Journal title :
Advances in Atomic and Molecular Physics
ISSN :
0065-2199
Publisher :
Elsevier Academic Press Inc, San Diego, United States - California
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