04037cam a2200373 i 4500
18264290
OSt
20220218150417.0
140812s2015 enka b 001 0 eng
2014032234
9781107069251 (hardback)
1107069254 (hardback)
DLC
eng
IISERB
rda
DLC
pcc
QC20.7.S3
E48 2015
539.758 El8S
23
SCI040000
bisacsh
Elvang, Henriette.
author.
27885
Scattering amplitudes in gauge theory and gravity
Henriette Elvang, University of Michigan, Ann Arbor, Yu-tin Huang, National Taiwan University.
Cambridge:
Cambridge University Press,
2019.
xii, 323 pages :
illustrations ;
26 cm
Includes bibliographical references (pages 294-318) and index.
Machine generated contents note: Preface; 1. Introduction; Part I. Trees: 2. Spinor helicity formalism; 3. On-shell recursion relations at tree-level; 4. Supersymmetry; 5. Symmetries of N = 4 SYM; Part II. Loops: 6. Loop amplitudes and generalized unitarity; 7. BCFW recursion for loops; 8. Leading singularities and on-shell diagrams; Part III. Topics: 9. Grassmannia; 10. Polytopes; 11. Amplitudes beyond four dimensions; 12. Supergravity amplitudes; 13. A colorful duality; 14. Further reading; Appendix; References; Index.
"Providing a comprehensive, pedagogical introduction to scattering amplitudes in gauge theory and gravity, this book is ideal for graduate students and researchers. It offers a smooth transition from basic knowledge of quantum field theory to the frontier of modern research. Building on basic quantum field theory, the book starts with an introduction to the spinor helicity formalism in the context of Feynman rules for tree-level amplitudes. The material covered includes on-shell recursion relations, superamplitudes, symmetries of N=4 super Yang-Mills theory, twistors and momentum twistors, Grassmannians, and polytopes. The presentation also covers amplitudes in perturbative supergravity, 3D Chern-Simons matter theories, and color-kinematics duality and its connection to 'gravity=(gauge theory)2'. Basic knowledge of Feynman rules in scalar field theory and quantum electrodynamics is assumed, but all other tools are introduced as needed. Worked examples demonstrate the techniques discussed, and over 150 exercises help readers absorb and master the material"--
"This book grew out of a need to have a set of easily accessible notes that introduced the basic techniques used in modern research on scattering amplitudes. In addition to the key tools, such a review should collect some of the small results and intuitions the authors had acquired from their work in the eld and which had not reviously been exposed in the literature. As the authors quickly realized, such an introduction would bring the reader only part of the way towards some of the most exciting topics in the eld, so they decided to add a little extra" material. While doing so and this took quite a while the authors remained in full and complete denial about writing a book. It was only at the end of process that they faced their worst fears: the review was becoming a book. You now hold the result in your hands. Because the authors were not writing a book, they actually thoroughly enjoyed the work. Their hope is that you will enjoy it too and that you will nd it useful"--
Scattering amplitude (Nuclear physics)
27886
Gauge fields (Physics)
Mathematics.
27887
SCIENCE / Mathematical Physics.
bisacsh
27888
Huang, Yu-tin.
author.
27889
Cover image
http://assets.cambridge.org/97811070/69251/cover/9781107069251.jpg
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rl07 2014-08-12
rl07 2014-08-12 ONIX to Dewey
xn08 2015-05-22 1 copy rec'd., to CIP ver.
rl00 2015-06-09 to SMA
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