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From Atom Optics to Quantum Simulation: Interacting Bosons and Fermions in Three-Dimensional Optical Lattice Potentials: Springer Theses

Autor Sebastian Will
en Limba Engleză Paperback – 29 ian 2015
This thesis explores ultracold quantum gases of bosonic and fermionic atoms in optical lattices. The highly controllable experimental setting discussed in this work, has opened the door to new insights into static and dynamical properties of ultracold quantum matter. One of the highlights reported here is the development and application of a novel time-resolved spectroscopy technique for quantum many-body systems. By following the dynamical evolution of a many-body system after a quantum quench, the author shows how the important energy scales of the underlying Hamiltonian can be measured with high precision.  This achievement, its application, and many other exciting results make this thesis of interest to a broad audience ranging from quantum optics to condensed matter physics. A lucid style of writing accompanied by a series of excellent figures make the work accessible to readers outside the rapidly growing research field of ultracold atoms.
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Specificații

ISBN-13: 9783642440328
ISBN-10: 3642440320
Pagini: 258
Ilustrații: XVIII, 258 p.
Dimensiuni: 155 x 235 x 15 mm
Greutate: 0.39 kg
Ediția:2013
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Springer Theses

Locul publicării:Berlin, Heidelberg, Germany

Public țintă

Research

Cuprins

Towards Strongly Interacting Bosons and Fermions.- Hubbard Models for Bosons and Fermions.- Detection and Observables.- Experimental Apparatus.- Interacting Fermions in Optical Lattice Potentials.- Quantum Phase Revival Spectroscopy and Multi-body Interactions.- Interacting Mixtures of Bosons and Fermions in Optical Lattice Potentials.- Coherent Interaction of a Single Fermion with a Small Bosonic Field.

Textul de pe ultima copertă

This thesis explores ultracold quantum gases of bosonic and fermionic atoms in optical lattices. The highly controllable experimental setting discussed in this work, has opened the door to new insights into static and dynamical properties of ultracold quantum matter. One of the highlights reported here is the development and application of a novel time-resolved spectroscopy technique for quantum many-body systems. By following the dynamical evolution of a many-body system after a quantum quench, the author shows how the important energy scales of the underlying Hamiltonian can be measured with high precision.  This achievement, its application, and many other exciting results make this thesis of interest to a broad audience ranging from quantum optics to condensed matter physics. A lucid style of writing accompanied by a series of excellent figures make the work accessible to readers outside the rapidly growing research field of ultracold atoms.

Caracteristici

A remarkable collection of advances in a rapidly growing research field Newcomers will benefit from the clear descriptions and carefully designed diagrams Nominated as an outstanding contribution by the graduate school MAINZ and the University of Munich Includes supplementary material: sn.pub/extras