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Books on the topic 'Elementary Particles and Fields and String Theory'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 February 2022

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1

Blumenhagen, Ralph. Basic Concepts of String Theory. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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2

Sannino, Francesco. Dynamical Stabilization of the Fermi Scale: Towards a Composite Universe. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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3

Gubler, Philipp. A Bayesian Analysis of QCD Sum Rules. Tokyo: Springer Japan, 2013.

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4

Kanazawa, Takuya. Dirac Spectra in Dense QCD. Tokyo: Springer Japan, 2013.

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5

Hollowood, Timothy J. Renormalization Group and Fixed Points: In Quantum Field Theory. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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6

service), SpringerLink (Online, ed. D-Brane: Superstrings and New Perspective of Our World. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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7

Wipf, Andreas. Statistical Approach to Quantum Field Theory: An Introduction. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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8

Cheng, Ta-Pei. Gauge theory of elementary particle physics: Problems and solutions. Oxford: Clarendon Press, 2000.

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9

Theoretical Advanced Study Institute in Elementary Particle Physics (1988 Brown University Providence). Particles, strings and supernovae: Proceedings of the Theoretical Advanced Study Institute in Elementary Particle Physics : Brown University, Providence, 6 June - 2 July 1988. Edited by Jevicki A and Tan Chung-I. Singapore: World Scientific, 1989.

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10

Theoretical Advanced Study Institute in Elementary Particle Physics (2010 Boulder, Colo.). String theory and its applications: TASI 2010, from meV to the Planck scale : Proceedings of the 2010 Theoretical Advanced Study Institute in Elementary Particle Physics. Edited by Dine Michael, Banks Tom 1949-, and Sachdev Subir 1961-. Singapore: World Scientific, 2012.

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11

Theoretical, Advanced Study Institute in Elementary Particle Physics (2010 Boulder Colo ). String theory and its applications: TASI 2010, from meV to the Planck scale : Proceedings of the 2010 Theoretical Advanced Study Institute in Elementary Particle Physics. Singapore: World Scientific, 2012.

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12

Jeffrey, Harvey, and Polchinski Joseph Gerard, eds. Recent directions in particle theory: From superstrings and black holes to the standard model : proceedings of the 1992 Theoretical Advanced Study Institute in Elementary Particle Physics, Boulder, Colorado, 1-26 June 1992. Singapore: World Scientific, 1993.

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13

Spatio-temporal chaos and vacuum fluctuations of quantized fields. New Jersey: World Scientific, 2002.

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14

service), SpringerLink (Online, ed. Extreme States of Matter in Strong Interaction Physics: An Introduction. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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15

T, DeGrand, and Toussaint D, eds. From actions to answers: Proceedings of the 1989 Theoretical Advanced Study Institute in Elementary Particle Physics, 5-30 June 1989, University of Colorado, Boulder. Singapore: World Scientific, 1990.

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16

Blumenhagen, Ralph, Dieter Lüst, and Stefan Theisen. Basic Concepts of String Theory. Springer, 2012.

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17

TASI 2015 : New Frontiers in Fields and Strings: Proceedings of the 2015 Theoretical Advanced Study Institute in Elementary Particle Physics, Boulder, Colorado, 2-26 June 2015. World Scientific Publishing Co Pte Ltd, 2016.

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18

Sannino, Francesco. Dynamical Stabilization of the Fermi Scale: Towards a Composite Universe. Springer, 2012.

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19

Sannino, Francesco. Dynamical Stabilization of the Fermi Scale: Towards a Composite Universe. Springer, 2012.

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20

Gubler, Philipp. A Bayesian Analysis of QCD Sum Rules. Springer, 2013.

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21

Wipf, Andreas. Statistical Approach to Quantum Field Theory: An Introduction. Springer, 2012.

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22

Wipf, Andreas. Statistical Approach to Quantum Field Theory: An Introduction. Springer, 2012.

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23

Cheng, Ta-Pei, and Ling-Fong Li. Gauge Theory of elementary particle physics. Oxford University Press, USA, 1988.

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24

Peskin, Michael E. Concepts of Elementary Particle Physics. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198812180.001.0001.

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This is a textbook of elementary particle physics whose goal is to explain the Standard Model of particle interactions. Part I introduces the basic concepts governing high-energy particle physics: elements of relativity and quantum field theory, the quark model of hadrons, methods for detection and measurement of elementary particles, methods for calculating predictions for observable quantitites. Part II builds up our understanding of the strong interaction from the key experiments to the formulation of Quantum Chromodynamics and its application to the description of evetns at the CERN Large Hadron Collider. Part III build up our understanding of the weak interaction from the key experiments to the formulation of spontaneously broken gauge theories. It then describes the tests and extensions of this theory, including the precision study of the W and Z bosons, CP violation, neutrino mass, and the Higgs boson.
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25

Cheng, Ta-Pei, and Ling-Fong Li. Gauge Theory of Elementary Particle Physics: Problems and Solutions. Oxford University Press, USA, 2000.

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26

Kisel, Vasiliy Vasilievich, Elena Mikhaylovna Ovsiyuk, Olga Vladimirovna Beko, and Yana Aleksandrovna Voynova. Elementary Particles with Internal Structure in External Fields. Vol II. Physical Problems. Nova Science Publishers, Incorporated, 2018.

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27

Horing, Norman J. Morgenstern. Quantum Statistical Field Theory. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198791942.001.0001.

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The methods of coupled quantum field theory, which had great initial success in relativistic elementary particle physics and have subsequently played a major role in the extensive development of non-relativistic quantum many-particle theory and condensed matter physics, are at the core of this book. As an introduction to the subject, this presentation is intended to facilitate delivery of the material in an easily digestible form to students at a relatively early stage of their scientific development, specifically advanced undergraduates (rather than second or third year graduate students), who are mathematically strong physics majors. The mechanism to accomplish this is the early introduction of variational calculus with particle sources and the Schwinger Action Principle, accompanied by Green’s functions, and, in addition, a brief derivation of quantum mechanical ensemble theory introducing statistical thermodynamics. Important achievements of the theory in condensed matter and quantum statistical physics are reviewed in detail to help develop research capability. These include the derivation of coupled field Green’s function equations of motion for a model electron-hole-phonon system, extensive discussions of retarded, thermodynamic and non-equilibrium Green’s functions, and their associated spectral representations and approximation procedures. Phenomenology emerging in these discussions includes quantum plasma dynamic, nonlocal screening, plasmons, polaritons, linear electromagnetic response, excitons, polarons, phonons, magnetic Landau quantization, van der Waals interactions, chemisorption, etc. Considerable attention is also given to low-dimensional and nanostructured systems, including quantum wells, wires, dots and superlattices, as well as materials having exceptional conduction properties such as superconductors, superfluids and graphene.
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28

Kisel, Vasiliy Vasilievich, Elena Mikhaylovna Ovsiyuk, Olga Vladimirovna Beko, and Yana Aleksandrovna Voynova. Elementary Particles with Internal Structure in External Fields. Vol I. General Theory. Nova Science Publishers, Incorporated, 2018.

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29

Satz, Helmut. Extreme States of Matter in Strong Interaction Physics. Springer, 2012.

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30

Satz, Helmut. Extreme States of Matter in Strong Interaction Physics: An Introduction. Springer, 2018.

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31

(Editor), Jean Bernard Zuber, ed. Conformal Invariance and Applications to Statistical Mechanics. World Scientific Pub Co Inc, 1988.

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32

Baulieu, Laurent, John Iliopoulos, and Roland Sénéor. From Classical to Quantum Fields. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198788393.001.0001.

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Quantum field theory has become the universal language of most modern theoretical physics. This book is meant to provide an introduction to this subject with particular emphasis on the physics of the fundamental interactions and elementary particles. It is addressed to advanced undergraduate, or beginning graduate, students, who have majored in physics or mathematics. The ambition is to show how these two disciplines, through their mutual interactions over the past hundred years, have enriched themselves and have both shaped our understanding of the fundamental laws of nature. The subject of this book, the transition from a classical field theory to the corresponding Quantum Field Theory through the use of Feynman’s functional integral, perfectly exemplifies this connection. It is shown how some fundamental physical principles, such as relativistic invariance, locality of the interactions, causality and positivity of the energy, form the basic elements of a modern physical theory. The standard theory of the fundamental forces is a perfect example of this connection. Based on some abstract concepts, such as group theory, gauge symmetries, and differential geometry, it provides for a detailed model whose agreement with experiment has been spectacular. The book starts with a brief description of the field theory axioms and explains the principles of gauge invariance and spontaneous symmetry breaking. It develops the techniques of perturbation theory and renormalisation with some specific examples. The last Chapters contain a presentation of the standard model and its experimental successes, as well as the attempts to go beyond with a discussion of grand unified theories and supersymmetry.
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33

Baulieu, Laurent, John Iliopoulos, and Roland Sénéor. Supersymmetry, or the Defence of Scalars. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198788393.003.0027.

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The only fields of the Standard Model whose masses are not protected by a symmetry are the scalar fields. Supersymmetry is a symmetry between fermions and bosons which provides precisely such a protection mechanism. This chapter presents a comprehensive study of supersymmetric field theories. In particular, it is shown that they do not suffer from the phenomenon of gauge hierarchy. They have remarkable renormalisation properties and offer the most attractive framework to build a unified theory. The breaking of supersymmetry, both explicit and spontaneous, is studied in detail. The generalisation of electric-magnetic duality in supersymmetric theories yields non-perturbative results and the concept of twist makes possible the study of topological field theories. The supersymmetric extension of the Standard Model is shown to predict the existence of new elementary particles, whose phenomenological properties are analysed.
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34

Morawetz, Klaus. Interacting Systems far from Equilibrium. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797241.001.0001.

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In quantum statistics based on many-body Green’s functions, the effective medium is represented by the selfenergy. This book aims to discuss the selfenergy from this point of view. The knowledge of the exact selfenergy is equivalent to the knowledge of the exact correlation function from which one can evaluate any single-particle observable. Complete interpretations of the selfenergy are as rich as the properties of the many-body systems. It will be shown that classical features are helpful to understand the selfenergy, but in many cases we have to include additional aspects describing the internal dynamics of the interaction. The inductive presentation introduces the concept of Ludwig Boltzmann to describe correlations by the scattering of many particles from elementary principles up to refined approximations of many-body quantum systems. The ultimate goal is to contribute to the understanding of the time-dependent formation of correlations. Within this book an up-to-date most simple formalism of nonequilibrium Green’s functions is presented to cover different applications ranging from solid state physics (impurity scattering, semiconductor, superconductivity, Bose–Einstein condensation, spin-orbit coupled systems), plasma physics (screening, transport in magnetic fields), cold atoms in optical lattices up to nuclear reactions (heavy-ion collisions). Both possibilities are provided, to learn the quantum kinetic theory in terms of Green’s functions from the basics using experiences with phenomena, and experienced researchers can find a framework to develop and to apply the quantum many-body theory straight to versatile phenomena.
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