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Books on the topic 'Quantum chromodynamics. Lattice gauge theories'

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Published: 4 June 2021
Last updated: 11 February 2022

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1

Carleton, DeTar, ed. Lattice methods for quantum chromodynamics. World Scientific, 2006.

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2

author, DeTar Carleton joint, ed. Lattice methods for quantum chromodynamics. World Scientific, 2006.

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3

NATO Workshop on Lattice Gauge Theories--A Challenge in Large-Scale Computing (1985 Wuppertal, Germany). Lattice gauge theory: A challenge in large-scale computing. Plenum Press, 1986.

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4

Pokorski, Stefan. Gauge field theories. Cambridge University Press, 1987.

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5

Pokorski, Stefan. Gauge field theories. Cambridge University Press, 1987.

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6

Gauge field theories. 2nd ed. Cambridge University Press, 2000.

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7

Foundations of quantum chromodynamics: An introduction to pertubative methods in gauge theories. World Scientific, 1987.

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8

Gribov, V. N. Gauge theories and quark confinement. PHASIS, 2002.

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9

Foundations of quantum chromodynamics: An introduction to perturbative methods in gauge theories. 3rd ed. World Scientific, 2010.

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10

Foundations of quantum chromodynamics: An introduction to perturbative methods in gauge theories. 2nd ed. World Scientific, 1998.

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11

Manfred, Böhm, and Böhm Manfred. Gauge theories of the strong and electroweak interaction. 3rd ed. B.G. Teubner, 2001.

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12

International Symposium on Lattice Field Theory (7th 1991 Tsukuba-shi, Japan). Lattice 91: Proceedings of the International Symposium on Lattice Field Theory, Tsukuba, Japan, 5-9 November 1991. North-Holland, 1992.

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13

International Workshop: Origin of Mass and Strong Coupling Gauge Theories (2006 Nagoya University). The origin of mass and strong coupling gauge theories: Proceedings of the 2006 International Workshop, Nagoya University, Nagoya, Japan, 21-24 November 2006. Edited by Harada M, Tanabashi M, and Yamawaki Kōichi 1946-. World Scientific, 2008.

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14

International Workshop: Origin of Mass and Strong Coupling Gauge Theories (2006 Nagoya University). The origin of mass and strong coupling gauge theories: Proceedings of the 2006 International Workshop, Nagoya University, Nagoya, Japan, 21-24 November 2006. Edited by Harada M, Tanabashi M, and Yamawaki Kōichi 1946-. World Scientific, 2008.

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15

Joannis, Papavassiliou, and Binosi Daniele, eds. The pinch technique and its applications to non-Abelian gauge theories. Cambridge University Press, 2011.

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16

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. World Scientific, 1990.

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17

CCAST (World Laboratory) Symposium/Workshop (1987 Peking University). Lattice gauge theory using parallel processors: Proceedings of the CCAST (World Laboratory) Symposium/Workshop held at Peking University, Beijing, China, May 21-June 2 1987. Gordon & Breach Science Publishers, 1987.

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18

Degrand, Thomas, and Carleton DeTar. Lattice Methods for Quantum Chromodynamics. World Scientific Publishing Company, 2006.

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19

H, Satz, Harrity Isabel, Potvin Jean, North Atlantic Treaty Organization. Scientific Affairs Division., and International Workshop "Lattice Gauge Theory 1986" (1986 : Brookhaven National Laboratory), eds. Lattice gauge theory '86. Plenum Press, 1987.

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20

Perspectives in Lattice Qcd. World Scientific Publishing Company, 2008.

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21

Perspectives in lattice QCD: Proceedings of the workshop : Nara International Seminar House, Nara, Japan, 31 October-11 November 2005. World Scientific, 2008.

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22

Perspectives in lattice QCD: Proceedings of the workshop : Nara International Seminar House, Nara, Japan, 31 October-11 November 2005. World Scientific, 2008.

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23

Andreas, Frommer, ed. Numerical challenges in lattice quantum chromodynamics: Joint interdisciplinary workshop of John von Neumann Institute for Computing, Jülich, and Institute of Applied Computer Science, Wuppertal University, August 1999. Springer, 2000.

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24

Baulieu, Laurent, John Iliopoulos, and Roland Sénéor. The Existence of Field Theories beyond the Perturbation Expansion. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198788393.003.0024.

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The standard model of fundamental interactions. A brief summary of the phenomenology of weak interactions. The construction of the electroweak theory and its experimental consequences. The deep inelastic scattering data as a motivation for quantum chromodynamics. Asymptotic freedom and the parton model. Quantum chromodynamics formulated on a space–time lattice. Non-trivial gauge field configurations and instantons. The meaning of the winding number. The strong CP problem and axions.
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25

Bunk, B. Lattice Gauge Theory: A Challenge In Large-Scale Computing. Springer, 2011.

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26

Schilling, K., B. Bunk, and K. H. Mutter. Lattice Gauge Theory: A Challenge in Large-Scale Computing (NATO Science Series: B:). Springer, 1999.

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27

W, Duke D., Owens J. F, and Florida State University. Supercomputer Computations Research Institute., eds. Advances in lattice gauge theory. World Scientific, 1985.

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28

1941-, Li Xiaoyuan, Qiu Zhaoming 1946-, and Ren Hai-cang 1956-, eds. Lattice gauge theory using parallel processors. Gordon & Breach Science Publishers, 1987.

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29

Muta, Taizo. Foundations of Quantum Chromodynamics: An Introduction to Perturbative Methods in Gauge Theories (World Scientific Lecture Notes in Physics). World Scientific Pub Co Inc, 1987.

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30

Marino, Marcos. Quantum chromodynamics. Edited by Gernot Akemann, Jinho Baik, and Philippe Di Francesco. Oxford University Press, 2018. http://dx.doi.org/10.1093/oxfordhb/9780198744191.013.32.

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This article focuses on chiral random matrix theories with the global symmetries of quantum chromodynamics (QCD). In particular, it explains how random matrix theory (RMT) can be applied to the spectra of the Dirac operator both at zero chemical potential, when the Dirac operator is Hermitian, and at non-zero chemical potential, when the Dirac operator is non-Hermitian. Before discussing the spectra of these Dirac operators at non-zero chemical potential, the article considers spontaneous symmetry breaking in RMT and the QCD partition function. It then examines the global symmetries of QCD, ta
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31

Muta, Taizo. Foundation of Quantum Chromodynamics: An Introduction to Perturbative Methods in Gauge Theories. World Scientific Publishing Company, 1998.

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32

(Editor), M. Harada, M. Tanabashi (Editor), and K. Yamawaki (Editor), eds. The Origin of Mass and Strong Coupling Gauge Theories: Proceedings of the 2006 International Workshop. World Scientific Publishing Company, 2008.

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33

Fukugita, M., Y. Iwasaki, and M. Okawa. Lattice 91: Proceedings of the International Symposium on Lattice Field Theory : Tsukuba, Japan, 5-9 November 1991. North-Holland, 1992.

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34

Akemann, Gernot. Random matrix theory and quantum chromodynamics. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797319.003.0005.

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This chapter was originally presented to a mixed audience of physicists and mathematicians with some basic working knowledge of random matrix theory. The first part is devoted to the solution of the chiral Gaussian unitary ensemble in the presence of characteristic polynomials, using orthogonal polynomial techniques. This includes all eigenvalue density correlation functions, smallest eigenvalue distributions, and their microscopic limit at the origin. These quantities are relevant for the description of the Dirac operator spectrum in quantum chromodynamics with three colors in four Euclidean
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35

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
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