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1

Dane, Charlotte. Ferdinand Learns the Feynman Technique: A Children's Book About Comprehension, Self-Explanation, and How to Make Sure You Don't Have Any Blind Spots. PKCS Media, 2021.

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Dane, Charlotte. Ferdinand Learns the Feynman Technique: A Children's Book about Comprehension, Self-Explanation, and How to Make Sure You Don't Have Any Blind Spots. PKCS Media, 2021.

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3

Duke, P. V. Landshoff, D. R. Nelson, D. W. Sciama, and A. Devoto. Techniqs Feynman Diagram. University of Cambridge ESOL Examinations, 2000.

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Jishi, Radi A. Feynman Diagram Techniques in Condensed Matter Physics. Cambridge University Press, 2013.

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5

Jishi, Radi A. Feynman Diagram Techniques in Condensed Matter Physics. Cambridge University Press, 2013.

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Jishi, Radi A. Feynman Diagram Techniques in Condensed Matter Physics. Cambridge University Press, 2013.

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7

Jishi, Radi A. Feynman Diagram Techniques in Condensed Matter Physics. Cambridge University Press, 2013.

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8

Feynman Diagram Techniques in Condensed Matter Physics. Cambridge University Press, 2014.

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9

Fai, Lukong Cornelius. Quantum Field Theory: Feynman Path Integrals and Diagrammatic Techniques in Condensed Matter. Taylor & Francis Group, 2019.

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10

Quantum Field Theory: Feynman Path Integrals and Diagrammatic Techniques in Condensed Matter. Taylor & Francis Group, 2019.

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11

Fai, Lukong Cornelius. Quantum Field Theory: Feynman Path Integrals and Diagrammatic Techniques in Condensed Matter. Taylor & Francis Group, 2019.

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12

Fai, Lukong Cornelius. Quantum Field Theory: Feynman Path Integrals and Diagrammatic Techniques in Condensed Matter. Taylor & Francis Group, 2019.

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Fai, Lukong Cornelius. Quantum Field Theory: Feynman Path Integrals and Diagrammatic Techniques in Condensed Matter. Taylor & Francis Group, 2019.

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14

Boudreau, Joseph F., and Eric S. Swanson. Simulation. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198708636.003.0015.

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This chapter is devoted to Monte Carlo simulation of stochastic processes, both fundamental processes and those involving radiation transport through macroscopic material. The computation of fundamental processes builds on the treatment of rotations and Lorentz transformations from the previous chapter and expands it with a discussion of computational techniques for the evaluation of Feynman diagrams. The simulation of radiation transport covers electromagnetic processes such as ionization energy loss, bremsstrahlung, and pair production. A discussion of real-life challenges in the simulation of radiation transport is included, as well as a brief discussion of simulation toolkits that are available for solving industrial-strength problems. The discussion is intended to give an overview of some of the principal computational and numerical techniques enabling these toolkits.
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15

Earth-Based Psychology: Path Awareness from the Teachings of Don Juan, Richard Feynman, and Lao Tse. Lao Tse Press, 2007.

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16

Richard Feynman's Mental Models: How to Think, Learn, and Problem-Solve Like a Nobel Prize-Winning Polymath. PKCS Media, 2023.

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17

Richard Feynman's Mental Models: How to Think, Learn, and Problem-Solve Like a Nobel Prize-Winning Polymath. PKCS Media, 2023.

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18

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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