Graphs in Perturbation Theory

Graphs in Perturbation Theory
Author :
Publisher : Springer
Total Pages : 186
Release :
ISBN-10 : 9783030035419
ISBN-13 : 3030035417
Rating : 4/5 (19 Downloads)

Synopsis Graphs in Perturbation Theory by : Michael Borinsky

This book is the first systematic study of graphical enumeration and the asymptotic algebraic structures in perturbative quantum field theory. Starting with an exposition of the Hopf algebra structure of generic graphs, it reviews and summarizes the existing literature. It then applies this Hopf algebraic structure to the combinatorics of graphical enumeration for the first time, and introduces a novel method of asymptotic analysis to answer asymptotic questions. This major breakthrough has combinatorial applications far beyond the analysis of graphical enumeration. The book also provides detailed examples for the asymptotics of renormalizable quantum field theories, which underlie the Standard Model of particle physics. A deeper analysis of such renormalizable field theories reveals their algebraic lattice structure. The pedagogical presentation allows readers to apply these new methods to other problems, making this thesis a future classic for the study of asymptotic problems in quantum fields, network theory and far beyond.

Perturbation theory for linear operators

Perturbation theory for linear operators
Author :
Publisher : Springer Science & Business Media
Total Pages : 610
Release :
ISBN-10 : 9783662126783
ISBN-13 : 3662126788
Rating : 4/5 (83 Downloads)

Synopsis Perturbation theory for linear operators by : Tosio Kato

Large-Order Behaviour of Perturbation Theory

Large-Order Behaviour of Perturbation Theory
Author :
Publisher : Elsevier
Total Pages : 595
Release :
ISBN-10 : 9780444596208
ISBN-13 : 0444596208
Rating : 4/5 (08 Downloads)

Synopsis Large-Order Behaviour of Perturbation Theory by : J.C. Le Guillou

This volume is concerned with the determination of the behaviour of perturbation theory at large orders in quantum mechanics and quantum field theory, and its application to the problem of summation of perturbation series. Perturbation series in quantum field theory and in many quantum mechanics models are only asymptotic and thus diverge for all values of the expansion parameter. Their behaviour at large orders provides information about whether they define the theory uniquely (the problem of Borel summability). It suggests methods to extract numerical information from the series when the expansion parameter is not small. The articles reprinted here deal with the explicit evaluation of large-order behaviour in many quantum mechanics and field theory models. The large-order behaviour is related to barrier penetration effects for unphysical values of the expansion parameter, which can be calculated by WKB or instanton methods. The calculation of critical exponents of &fgr;4 field theory is presented as a practical application.

Graphs and Patterns in Mathematics and Theoretical Physics

Graphs and Patterns in Mathematics and Theoretical Physics
Author :
Publisher : American Mathematical Soc.
Total Pages : 443
Release :
ISBN-10 : 9780821836668
ISBN-13 : 0821836668
Rating : 4/5 (68 Downloads)

Synopsis Graphs and Patterns in Mathematics and Theoretical Physics by : Mikhail Lyubich

The Stony Brook Conference, "Graphs and Patterns in Mathematics and Theoretical Physics", was dedicated to Dennis Sullivan in honor of his sixtieth birthday. The event's scientific content, which was suggested by Sullivan, was largely based on mini-courses and survey lectures. The main idea was to help researchers and graduate students in mathematics and theoretical physics who encounter graphs in their research to overcome conceptual barriers. The collection begins with Sullivan's paper, "Sigma models and string topology," which describes a background algebraic structure for the sigma model based on algebraic topology and transversality. Other contributions to the volume were organized into five sections: Feynman Diagrams, Algebraic Structures, Manifolds: Invariants and Mirror Symmetry, Combinatorial Aspects of Dynamics, and Physics. These sections, along with more research-oriented articles, contain the following surveys: "Feynman diagrams for pedestrians and mathematicians" by M. Polyak, "Notes on universal algebra" by A. Voronov, "Unimodal maps and hierarchical models" by M. Yampolsky, and "Quantum geometry in action: big bang and black holes" by A. Ashtekar. This comprehensive volume is suitable for graduate students and research mathematicians interested in graph theory and its applications in mathematics and physics.

Data Privacy Management, Cryptocurrencies and Blockchain Technology

Data Privacy Management, Cryptocurrencies and Blockchain Technology
Author :
Publisher : Springer Nature
Total Pages : 404
Release :
ISBN-10 : 9783030315009
ISBN-13 : 3030315002
Rating : 4/5 (09 Downloads)

Synopsis Data Privacy Management, Cryptocurrencies and Blockchain Technology by : Cristina Pérez-Solà

This book constitutes the refereed conference proceedings of the 14th International Workshop on Data Privacy Management, DPM 2019, and the Third International Workshop on Cryptocurrencies and Blockchain Technology, CBT 2019, held in conjunction with the 24th European Symposium on Research in Computer Security, ESORICS 2019, held in Luxembourg in September 2019. For the CBT Workshop 10 full and 8 short papers were accepted out of 39 submissions. The selected papers are organized in the following topical headings: lightning networks and level 2; smart contracts and applications; and payment systems, privacy and mining. The DPM Workshop received 26 submissions from which 8 full and 2 short papers were selected for presentation. The papers focus on privacy preserving data analysis; field/lab studies; and privacy by design and data anonymization. Chapter 2, “Integral Privacy Compliant Statistics Computation,” and Chapter 8, “Graph Perturbation as Noise Graph Addition: a New Perspective for Graph Anonymization,” of this book are available open access under a CC BY 4.0 license at link.springer.com.

Graph Theoretical Approaches to Chemical Reactivity

Graph Theoretical Approaches to Chemical Reactivity
Author :
Publisher : Springer Science & Business Media
Total Pages : 291
Release :
ISBN-10 : 9789401112024
ISBN-13 : 9401112029
Rating : 4/5 (24 Downloads)

Synopsis Graph Theoretical Approaches to Chemical Reactivity by : Danail D. Bonchev

The progress in computer technology during the last 10-15 years has enabled the performance of ever more precise quantum mechanical calculations related to structure and interactions of chemical compounds. However, the qualitative models relating electronic structure to molecular geometry have not progressed at the same pace. There is a continuing need in chemistry for simple concepts and qualitatively clear pictures that are also quantitatively comparable to ab initio quantum chemical calculations. Topological methods and, more specifically, graph theory as a fixed-point topology, provide in principle a chance to fill this gap. With its more than 100 years of applications to chemistry, graph theory has proven to be of vital importance as the most natural language of chemistry. The explosive development of chemical graph theory during the last 20 years has increasingly overlapped with quantum chemistry. Besides contributing to the solution of various problems in theoretical chemistry, this development indicates that topology is an underlying principle that explains the success of quantum mechanics and goes beyond it, thus promising to bear more fruit in the future.

Symmetries of Nonlinear PDEs on Metric Graphs and Branched Networks

Symmetries of Nonlinear PDEs on Metric Graphs and Branched Networks
Author :
Publisher : MDPI
Total Pages : 144
Release :
ISBN-10 : 9783039217205
ISBN-13 : 3039217208
Rating : 4/5 (05 Downloads)

Synopsis Symmetries of Nonlinear PDEs on Metric Graphs and Branched Networks by : Dmitry Pelinovsky

This Special Issue focuses on recent progress in a new area of mathematical physics and applied analysis, namely, on nonlinear partial differential equations on metric graphs and branched networks. Graphs represent a system of edges connected at one or more branching points (vertices). The connection rule determines the graph topology. When the edges can be assigned a length and the wave functions on the edges are defined in metric spaces, the graph is called a metric graph. Evolution equations on metric graphs have attracted much attention as effective tools for the modeling of particle and wave dynamics in branched structures and networks. Since branched structures and networks appear in different areas of contemporary physics with many applications in electronics, biology, material science, and nanotechnology, the development of effective modeling tools is important for the many practical problems arising in these areas. The list of important problems includes searches for standing waves, exploring of their properties (e.g., stability and asymptotic behavior), and scattering dynamics. This Special Issue is a representative sample of the works devoted to the solutions of these and other problems.

Mathematical Quantum Theory I

Mathematical Quantum Theory I
Author :
Publisher : American Mathematical Soc.
Total Pages : 252
Release :
ISBN-10 : 0821870483
ISBN-13 : 9780821870488
Rating : 4/5 (83 Downloads)

Synopsis Mathematical Quantum Theory I by : Joel S. Feldman

This book is the first volume of the proceedings of the Canadian Mathematical Society Annual Seminar on Mathematical Quantum Theory, held in Vancouver in August 1993. The seminar was run as a research-level summer school concentrating on two related areas of contemporary mathematical physics. The subject of the first session, quantum field theory and many-body theory, is covered in the present volume; papers from the second session, on Schrodinger operators, are in volume 2. Each session featured a series of minicourses, consisting of approximately four one-hour lectures, designed to introduce students to current research in a particular area. In addition, about thirty speakers gave one-hour expository lectures. With contributions by some of the top experts in the field, this book provides an overview of the state of the art in mathematical quantum field and many-body theory.

Algorithms and Models for the Web Graph

Algorithms and Models for the Web Graph
Author :
Publisher : Springer
Total Pages : 194
Release :
ISBN-10 : 9783319928715
ISBN-13 : 3319928716
Rating : 4/5 (15 Downloads)

Synopsis Algorithms and Models for the Web Graph by : Anthony Bonato

This book constitutes the proceedings of the 15th International Workshop on Algorithms and Models for the Web Graph, WAW 2018, held in Moscow, Russia in May 2018. The 11 full papers presented in this volume were carefully reviewed and selected from various submissions. The papers focus on topics like the information retrieval and data mining on the Web; Web as a text repository and as a graph, induced in various ways by link among pages, hosts and users; the understanding of graphs that arise from the Web and various user activities on the Web; stimulation of the development of high-performance algorithms and applications that exploit these graphs.

Modern Functional Quantum Field Theory: Summing Feynman Graphs

Modern Functional Quantum Field Theory: Summing Feynman Graphs
Author :
Publisher : World Scientific
Total Pages : 281
Release :
ISBN-10 : 9789814415903
ISBN-13 : 9814415901
Rating : 4/5 (03 Downloads)

Synopsis Modern Functional Quantum Field Theory: Summing Feynman Graphs by : Herbert Martin Fried

These pages offer a simple, analytic, functional approach to non-perturbative QFT, using a frequently overlooked functional representation of Fradkin to explicitly calculate relevant portions of the Schwinger Generating Functional (GF). In QED, this corresponds to summing all Feynman graphs representing virtual photon exchange between charged particles. It is then possible to see, analytically, the cancellation of an infinite number of perturbative, UV logarithmic divergences, leading to an approximate but most reasonable statement of finite charge renormalization.A similar treatment of QCD, with the addition of a long-overlooked but simple rearrangement of the Schwinger GF which displays Manifest Gauge Invariance, is then able to produce a simple, analytic derivation of quark-binding potentials without any approximation of infinite quark masses. A crucial improvement of previous QCD theory takes into account the experimental fact that asymptotic quarks are always found in bound states; and therefore that their transverse coordinates can never be measured, nor specified, exactly. And this change of formalism permits a clear and simple realization of true quark binding, into mesons and nucleons. An extension into the QCD binding of two nucleons into an effective deuteron presents a simple, analytic derivation of nuclear forces.Finally, a new QED-based solution of Vacuum Energy is displayed as a possible candidate for Dark Energy. An obvious generalization to include Inflation, which automatically suggests a model for Dark Matter, is immediately possible; and one more obvious generalization produces an understanding of the origin of the Big Bang, and of the Birth (and Death) of a Universe. If nothing else, this illustrates the Power and the Reach of Quantum Field Theory.