Open AccessControl aspects of quantum computing using pure and mixed states
Author(s) -
Thomas SchulteHerbrüggen,
Raimund Marx,
Amr Fahmy,
Louis H. Kauffman,
Samuel J. Lomonaco,
Navin Khaneja,
Steffen J. Glaser
Publication year - 2012
Publication title -
philosophical transactions of the royal society a mathematical physical and engineering sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.074
H-Index - 169
eISSN - 1471-2962
pISSN - 1364-503X
DOI - 10.1098/rsta.2011.0513
Subject(s) - quantum computer , quantum network , quantum simulator , quantum , open quantum system , quantum technology , quantum state , quantum algorithm , computer science , quantum information , quantum error correction , statistical physics , physics , quantum mechanics
Steering quantum dynamics such that the target states solve classically hard problems is paramount to quantum simulation and computation. And beyond, quantum control is also essential to pave the way to quantum technologies. Here, important control techniques are reviewed and presented in a unified frame covering quantum computational gate synthesis and spectroscopic state transfer alike. We emphasize that it does not matter whether the quantum states of interest are pure or not. While pure states underly the design of quantum circuits, ensemble mixtures of quantum states can be exploited in a more recent class of algorithms: it is illustrated by characterizing the Jones polynomial in order to distinguish between different (classes of) knots. Further applications include Josephson elements, cavity grids, ion traps and nitrogen vacancy centres in scenarios of closed as well as open quantum systems.
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