• ВХОД

    •  

    Полное описание

    Wichterich, H. C. Entanglement Between Noncomplementary Parts of Many-Body Systems : монография / by Hannu Christian Wichterich. - Berlin ; Heidelberg : Springer Berlin Heidelberg, 2011. - on-line. - (Springer Theses ; vol. 1). - URL: http://dx.doi.org/10.1007/978-3-642-19342-2. - Загл. с экрана. - ISBN 978-3-642-19342-2. - Текст : электронный.
    Содержание:
    Introduction -- Exploiting Quench Dynamics in Spin Chains for Distant Entanglement and Quantum Communication -- Extraction of Pure Entangled States from Many-Body Systems by Distant Local Projections -- Scaling of Negativity of Separating Blocks in Spin Chains and Critically.-Universality of the Negativity in the Lipkin-Mechkov-Glick Model -- Conclusions and Outlook -- A. Diagonalisation of the XX Model -- B. Factorisation of the Fermionic Correlation Functions -- C. Time Dependence of the Reduced Density Operator Following Quench -- D. Density Matrix Renormalisation Group Algorithm -- E. Proof of Williamson’s Theorem -- F. Partial Transposition in Continuous Variable Systems -- G. Gaussian Wigner Representation of Bosonic Vacuum -- H. Ground State Covariance Matrix of a Quadtratic Hamiltonean -- I. Bipartitie Entanglement of Gaussian States -- J. Density Matrix Spectra of Bosonic Gaussian States -- K. Bosonisation of the LMG Hamiltonian -- Bibliography.

    ГРНТИ УДК
    29.05.15530.145.83(043)

    Рубрики:
    physics
    quantum physics
    superconductivity
    superconductors
    phase transitions (Statistical physics)
    physics
    quantum Physics
    strongly Correlated Systems, Superconductivity
    phase Transitions and Multiphase Systems

    Аннотация: 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.    .

    http://dx.doi.org/10.1007/978-3-642-19342-2


    Держатели документа:
    Государственная публичная научно-техническая библиотека России : 123298, г. Москва, ул. 3-я Хорошевская, д. 17 (Шифр в БД-источнике (KATBW): -030439625)

    Шифр в сводном ЭК: c59b83f1777a55d9d1411ac5e7989d06



    Просмотр издания