Description
Dynamics and Characterization of Composite Quantum Systems, Softcover reprint of the original 1st ed. 2017
Springer Theses Series
Author: Gessner Manuel
Language: English
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the print on demand of Gessner Manuel
Dynamics and Characterization of Composite Quantum Systems
Publication date: 10-2016
Support: Print on demand
Publication date: 10-2016
Support: Print on demand
Approximative price 105.49 €
In Print (Delivery period: 15 days).
Add to cart the print on demand of Gessner Manuel
Dynamics and Characterization of Composite Quantum Systems
Publication date: 06-2018
Support: Print on demand
Publication date: 06-2018
Support: Print on demand
Description
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This thesis sheds new light on the fascinating properties of composite quantum systems.
Quantum systems of different sizes, ranging from small bipartite systems to large many-body ensembles, can be studied with the help of modern quantum optical experiments. These experiments make it possible to observe a broad variety of striking features, including nonclassical correlations, complex dynamics and quantum phase transitions. By adopting the complementary perspectives of quantum information theory, quantum chemistry and many-body theory, the thesis develops new methods for the efficient characterization and description of interacting, composite quantum systems.
Introduction.- Background.- Local Detection of Correlations.- From Local Operations to Collective Dephasing: Behavior of Correlations.- Quantum Phase Transition in a Family of Quantum Magnets.- Multidimensional Nonlinear Spectroscopy of Controllable Quantum Systems.- Open Quantum Systems of Identical Particles.- Summary and Conclusions.
Manuel Gessner studied Physics at the University of Freiburg and the Universidad Complutense de Madrid, then did his PhD in Freiburg while part of his research was carried out during a stay at the University of California, Berkeley. He is now a post-doctoral researcher and Humboldt fellow at LENS in Florence.
Nominated as an outstanding Ph.D. thesis by the Albert Ludwig University of Freiburg, Germany
Discusses both theoretical and experimental aspects
Combines methods from quantum information theory, quantum chemistry, and solid-state physics
Includes supplementary material: sn.pub/extras
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