This book explores the physics of atoms frozen to ultralow temperatures and trapped in periodic light structures. It introduces the reader to the spectacular progress achieved on the field of ultracold gases and describes present and future challenges in condensed matter physics, high energy physics, and quantum computation.
This book explores the physics of atoms frozen to ultralow temperatures and trapped in periodic light structures. It introduces the reader to the spectacular progress achieved on the field of ultracold gases and describes present and future challenges in condensed matter physics, high energy physics, and quantum computation.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Maciej Lewenstein has been an ICREA professor at the Institut de Ciències Fotòniques in Castelldefels since 2005 where he leads the quantum optics theory group. In 2007 he won the Humbolt research award, Germany. In 2008 he obtained the Advance Research Grant from the European Community and in 2010 he won the first Harmburger Prize for his contributions in theoretical physics. His interests range from traditional quantum optics through to physics of cold gases and quantum information to physics of ultra intense laser fields. Anna Sanpera has been an ICREA professor in the newly formed group of Quantum Information and Quantum Phenomena at the Universitat Autònoma of Barcelona, Spain, since 2005. She is currently working on quantum information theory, physics ultra-cold gases and the interface between quantum theory and condensed matter. She is also interested in the connection between quantum mechanics and biology. Verònica Ahufinger obtained an ICREA researcher position in 2005 and moved to the Universitat Autònoma of Barcelona. Since 2010 she has been a professor at the Universitat Autònoma of Barcelona. She is interested in the interplay between the physics of ultracold atoms, quantum optics and condensed matter.
Inhaltsangabe
1: Introduction 2: Statistical physics of condensed matter: basic concepts 3: Ultracold gases in optical lattices: Basic concepts 4: Quantum simulators of condensed matter 5: Bose Hubbard models: Methods of treatment 6: Fermi and Fermi-Bose Hubbard models: Methods of treatment 7: Ultracold spinor atomic gases 8: Ultracold dipolar gases 9: Disordered ultracold atomic gases 10: Frustrated models in cold atom systems 11: Ultracold atomic gases in "artificial " gauge fields 12: Many body physics from a quantum information perspective 13: Quantum information with lattice gases 14: Detection of quantum systems realised with ultracold atoms 15: Summary and future perspectives Bibliography
1: Introduction 2: Statistical physics of condensed matter: basic concepts 3: Ultracold gases in optical lattices: Basic concepts 4: Quantum simulators of condensed matter 5: Bose Hubbard models: Methods of treatment 6: Fermi and Fermi-Bose Hubbard models: Methods of treatment 7: Ultracold spinor atomic gases 8: Ultracold dipolar gases 9: Disordered ultracold atomic gases 10: Frustrated models in cold atom systems 11: Ultracold atomic gases in "artificial " gauge fields 12: Many body physics from a quantum information perspective 13: Quantum information with lattice gases 14: Detection of quantum systems realised with ultracold atoms 15: Summary and future perspectives Bibliography
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