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200 10$aElectronic correlation mapping $efrom finite to extended systems /$fJamal Berakdar
210   $aWeinheim $cWiley-VCH$dc2006
215   $a1 online resource (207 p.)
300   $aDescription based upon print version of record.
311 08$a9783527403509 
311 08$a3527403507 
320   $aIncludes bibliographical references and index.
327   $aElectronic Correlation Mapping; Contents; 1 Qualitative and General Features of Electron-Electron Scattering; 1.1 MappingMomentum-distributionFunctions; 1.2 Role of Momentum Transfer during Electron-Electron Scattering; 1.3 Approximate Formula for the Electron-Electron Ionization Cross Section; 1.3.1 Example:AnAtomicTarget; 1.3.2 Electron-Electron Cross Section for Scattering from Condensed Matter; 1.3.3 Electron Scattering Cross Section from Ordered Materials; 1.3.4 Initial- vs. Final-state Interactions; 1.4 Averaged Electron-Electron Scattering Probabilities
327   $a1.4.1 Integrated Cross Section for Strongly Localized States1.4.2 Low-energy Regime; 1.5 Electron-Electron Scattering in an Extended System; 2 Spin-effects on the Correlated Two-electron Continuum; 2.1 Generalities on the Spin-resolved Two-electron Emission; 2.2 Formal Symmetry Analysis; 2.3 Parametrization of the Spin-resolved Cross Sections; 2.4 Exchange-induced Spin Asymmetry; 2.5 Physical Interpretation of the Exchange-induced Spin Asymmetry; 2.6 Spin Asymmetry in Correlated Two-electron Emission from Surfaces; 2.7 General Properties of the Spin Asymmetry
327   $a2.7.1 Spin AsymmetryinPair Emissionfrom Bulk Matter2.7.2 Spin-polarized Homogenous Electron Gas; 2.7.3 Behavior of the Exchange-induced Spin Asymmetry in Scattering from Atomic Systems; 2.7.4 Threshold Behavior of the Spin Asymmetry; 3 Mechanisms of Correlated Electron Emission; 3.1 Exterior Complex Scaling; 3.2 The Convergent Close Coupling Method; 3.3 Analytical Models; 3.3.1 Dynamical Screening; 3.3.2 Influence of the Density of Final States; 3.4 Analysis of the Measured Angular Distributions; 3.4.1 The Intermediate Energy Regime
327   $a3.5 Characteristics of the Correlated Pair Emissionat Low Energies3.5.1 Influence of the Exchange Interaction on the Angular Pair Correlation; 3.6 Threshold Behavior of the Energy and the Angular Pair Correlation; 3.6.1 Generalities of Threshold Pair Emission; 3.6.2 Threshold Pair Emissionfroma Coulomb Potential; 3.6.3 Regularities of the Measured Pair Correlation at Low Energies; 3.6.4 Role of Final-state Interactions in Low-energy Correlated Pair Emission; 3.6.5 Interpretation of Near-threshold Experiments; 3.7 Remarks on the Mechanisms of Electron-pair Emission from Atomic Systems
327   $a4 Electron-electron Interaction in Extended Systems4.1 Exchange and Correlation Hole; 4.2 Pair-correlation Function; 4.2.1 Effect of Exchange on the Two-particle Probability Density; 4.3 Momentum-space Pair Densityand Two-particle Spectroscopy; 4.3.1 The S Matrix Elements; 4.3.2 Transition Probabilities and Cross Sections; 4.3.3 Two-particle Emissionand the Pair-correlation Function; 5 The Electron-Electron Interaction in Large Molecules and Clusters; 5.1 Retardation and Nonlocality of the Electron-Electron Interaction in Extended Systems; 5.2 Electron Emission from Fullerenes and Clusters
327   $a5.2.1 The Spherical Jellium Model
330   $aAn up-to-date selection of applications of correlation spectroscopy, in particular as far as the mapping of properties of correlated many-body systems is concerned. The book starts with a qualitative analysis of the outcome of the two-particle correlation spectroscopy of localized and delocalized electronic systems as they occur in atoms and solids. The second chapter addresses how spin-dependent interactions can be imaged by means of correlation spectroscopy, both in spin-polarized and extended systems. A further chapter discusses possible pathways for the production of interacting two-pa
606   $aElectron configuration
606   $aElectronic excitation
606   $aElectronic structure
615  0$aElectron configuration.
615  0$aElectronic excitation.
615  0$aElectronic structure.
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200 10$aCanonizing hypertext $eexplorations and constructions $fAstrid Ensslin
205   $a1st ed.
210  1$aNew York $cContinuum $d2007.
215   $a1 online resource (207 p.)
225 1 $aContinuum literary studies
300   $aDescription based upon print version of record.
311 08$a0-8264-9558-3 
320   $aIncludes bibliographical references (pages [173]-193) and index
327   $aIntroduction -- 1. Hypertextual Ontologies -- 2. Hypertext and the Question of Canonicity -- 3. A Hypertext Canon -- 4. Literary Competence - Conceptual Adaptations -- 5. Hypertext in the Literature Classroom -- Conclusion -- Bibliography -- Index
330 8 $a This innovative monograph focuses on a contemporary form of computer-based literature called 'literary hypertext', a digital, interactive, communicative form of new media writing.  Canonizing Hypertext combines theoretical and hermeneutic investigations with empirical research into the motivational and pedagogic possibilities of this form of literature.  It focuses on key questions for literary scholars and teachers: How can literature be taught in such a way as to make it relevant for an increasingly hypermedia-oriented readership? How can the rapidly evolving new media be integrated into curricula that still seek to transmit 'traditional' literary competence?  How can the notion of literary competence be broadened to take into account these current trends?  This study, which argues for hypertext's integration in the literary canon, offers a critical overview of developments in hypertext theory, an exemplary hypertext canon and an evaluation of possible classroom applications
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606   $2Literary studies: from c 1900 -
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200 10$aOpen Quantum Systems in Biology, Cognitive and Social Sciences /$fby Andrei Y. Khrennikov
205   $a1st ed. 2023.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2023.
215   $a1 online resource (371 pages)
311 08$aPrint version: Khrennikov, Andrei Y. Open Quantum Systems in Biology, Cognitive and Social Sciences Cham : Springer International Publishing AG,c2023 9783031290237 
327   $aInterplay Between Classical and Quantum Probability -- Quantum Formalism for Decision Making -- Classical Versus Quantum Rationality -- What is Life? Open Quantum Systems Approach -- Order-stability in Complex Biosystems -- Brain Functioning -- Emotional Coloring of Conscious Experiences -- Quantum Instruments and Positive Operator Valued Measures -- Question Order and Response Replicability E?ects -- Psychological E?ects and QQ-equality.
330   $aThis book mathematically analyzes the basic problems of biology, decision making and psychology within the framework of the theory of open quantum systems. In recent years there has been an explosion of interest in applications of quantum theory in fields beyond physics. The main areas include psychology, decision-making, economics, finance, social science as well as genetics and molecular biology. The corresponding models are referred to as quantum-like; they don?t concern any genuine physical processes in the human brain. Quantum-like models reflect the special features of information processing in biological, cognitive, and social systems which match well with the quantum formalism. This formalism gives rise to the quantum probability model (QP) which differs essentially from Kolmogorov's classical probability model. QP also serves as the basis for quantum information theory. Recently QP has been widely applied to the resolution of the basic paradoxes ofdecision making theory and to modeling experimental data stemming from cognition, psychology, economics, and finance thereby shedding light on probability fallacies and irrational behavior. In this book, the theory of quantum instruments and the quantum master equation are applied to the modeling of biological and cognitive processes, in particular, to the stability of complex biological and social systems interacting with their environment. An essential part of the book is devoted to the theory of the social laser and the Fröhlich condensate. .
606   $aQuantum theory
606   $aNeural networks (Computer science)
606   $aBiophysics
606   $aCognitive science
606   $aMathematics
606   $aSocial sciences
606   $aQuantum Physics
606   $aMathematical Models of Cognitive Processes and Neural Networks
606   $aBiophysics
606   $aCognitive Science
606   $aMathematics in the Humanities and Social Sciences
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615 14$aQuantum Physics.
615 24$aMathematical Models of Cognitive Processes and Neural Networks.
615 24$aBiophysics.
615 24$aCognitive Science.
615 24$aMathematics in the Humanities and Social Sciences.
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