Hannu Christian Wichterich Wichterich Entanglement Between Noncomplementary Parts of Many-Body Systems

Entanglement Between Noncomplementary Parts of Many-Body Systems

von Hannu Christian Wichterich

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Beschreibung

This thesis investigates the structure and behaviour of entanglement, the purely quantum mechanical part of correlations, in many-body systems, employing both numerical and analytical techniques at the interface of condensed matter theory and quantum information theory. Entanglement can be seen as a precious resource which, for example, enables the noiseless and instant transmission of quantum information, provided the communicating parties share a sufficient "amount" of it. Furthermore, measures of entanglement of a quantum mechanical state are perceived as useful probes of collective properties of many-body systems. For instance, certain measures are capable of detecting and classifying ground-state phases and, particularly, transition (or critical) points separating such phases. Chapters 2 and 3 focus on entanglement in many-body systems and its use as a potential resource for communication protocols. They address the questions of how a substantial amount of entanglement can be established between distant subsystems, and how efficiently this entanglement could be "harvested" by way of measurements. The subsequent chapters 4 and 5 are devoted to universality of entanglement between large collections of particles undergoing a quantum phase transition, where, despite the enormous complexity of these systems, collective properties including entanglement no longer depend crucially on the microscopic details.  
This thesis investigates the structure and behaviour of entanglement, the purely quantum mechanical part of correlations, in many-body systems, employing both numerical and analytical techniques at the interface of condensed matter theory and quantum information theory. Entanglement can be seen as a precious resource which, for example, enables the noiseless and instant transmission of quantum information, provided the communicating parties share a sufficient "amount" of it. Furthermore, measures of entanglement of a quantum mechanical state are perceived as useful probes of collective properties of many-body systems. For instance, certain measures are capable of detecting and classifying ground-state phases and, particularly, transition (or critical) points separating such phases. Chapters 2 and 3 focus on entanglement in many-body systems and its use as a potential resource for communication protocols. They address the questions of how a substantial amount of entanglement can be established between distant subsystems, and how efficiently this entanglement could be "harvested" by way of measurements. The subsequent chapters 4 and 5 are devoted to universality of entanglement between large collections of particles undergoing a quantum phase transition, where, despite the enormous complexity of these systems, collective properties including entanglement no longer depend crucially on the microscopic details.
Nominated as an outstanding contribution by University College London Treats two of the major challenges of modern physics: Entanglement and emergent properties (phase transitions) Provides an excellent theoretical basis for future research

Autor*in

Hannu Christian Wichterich

Themen in »Entanglement Between Noncomplementary Parts of Many-Body Systems«

Density matrix renormalization group Emergent properties thesis Entanglement thesis Mixed state entanglement Prize winning physics thesis Prize winning thesis Quantum phase transitions Quantum quench Quantum spin chains

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From the reviews:

“The theses brings new and very interesting knowledge on the quantum information field. … this thesis gives a new insight of entanglement between noncomplementary regious of many-body systems, with interesting discussions and well carried out mathematical models.” (Nicolae Constantinescu, Zentralblatt MATH, Vol. 1222, 2011)
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Details

ISBN: 9783642193422
Verlag: Springer Berlin
Erscheinung: 18.05.2011

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