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Ultracold atoms in optical lattices simulating quantum many-body systems download

Ultracold atoms in optical lattices simulating quantum many-body systems

Ultracold Atoms in Optical Lattices: Simulating quantum many-body systems. Maciej Lewenstein, Anna Sanpera, and Verònica Ahufinger. Abstract. Quantum computers, although not yet available on the market, will revolutionise the future of information processing. Already now, quantum computers of special purpose, i.e. 4 May Ultracold Atoms in Optical Lattices. Simulating quantum many-body systems. Maciej Lewenstein, Anna Sanpera, and Veronica Ahufinger. First comprehensive book on ultracold gases in optical lattices; First book on quantum simulators; Interdisciplinary character; Covers both theoretical and experimental. : Ultracold Atoms in Optical Lattices: Simulating quantum many- body systems (): Maciej Lewenstein, Anna Sanpera, Veronica Ahufinger: Books.

Ultracold Atoms in Optical Lattices: Simulating Quantum Many-Body Systems, by Maciej Lewenstein, Anna Sanpera and Verònica Ahufinger. Scope: monograph. Level: postgraduate, early career researcher, specialist. Michael Belsley Universidade do Minho [email protected] Pages On Apr 1, Maciej Lewenstein (and others) published: Ultracold Atoms in Optical Lattices: Simulating Quantum Many-Body Systems, by Maciej Lewenstein , Anna Sanpera and Verònica Ahufinger. The physics of ultracold atoms, ions, and molecules offer unprecedented possibilities of control of quantum many-body systems and novel possibilities of applications to quantum information processing and quantum metrology. Particularly fascinating is the possibility of using ultracold atoms in lattices to simulate condensed.

The physics of ultracold atoms, ions and molecules offer unprecedented possibilities of control of quantum many body systems and novel possibilities of applications to quantum information processing and quantum metrology. Particularly fascinating is the possibility of using ultracold atoms in lattices to simulate condensed. In addition, synthetic quantum systems can find applications as high precision quantum sensors. For instance, high accuracy optical ion clocks have been realized, which exploit entangling operations between different ions [6,7]. The simulation of quantum many-body dynamics with ultracold atoms in op- tical lattices, which.

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