Andrew Lifson
Doctoral student
The Chirality-Flow Formalism for Standard Model Calculations
Author
Editor
- Vladimir Dobrev
Summary, in English
Scattering amplitudes are often split up into their color (su(N) ) and kinematic components. Since the su(N) gauge part can be described using flows of color, one may anticipate that the su(2 ) ⊕ su(2 ) kinematic part can be described in terms of flows of chirality. In two recent papers we showed that this is indeed the case, introducing the chirality-flow formalism for standard model calculations. Using the chirality-flow method—which builds on and further simplifies the spinor-helicity formalism—Feynman diagrams can be directly written down in terms of Lorentz-invariant spinor inner products, allowing the simplest and most direct path from a Feynman diagram to a complex number. In this presentation, we introduce this method and show some examples.
Department/s
- Theoretical Particle Physics - Undergoing reorganization
Publishing year
2022
Language
English
Pages
387-394
Publication/Series
Springer Proceedings in Mathematics and Statistics
Volume
396
Document type
Conference paper
Publisher
Springer Gabler
Topic
- Subatomic Physics
Keywords
- Chirality flow
- Feynman rules
- Spinor-helicity formalism
Conference name
14th International Workshop on Lie Theory and Its Applications in Physics, LT 2021
Conference date
2021-06-21 - 2021-06-25
Conference place
Virtual, Online
Status
Published
ISBN/ISSN/Other
- ISSN: 2194-1009
- ISSN: 2194-1017
- ISBN: 9789811947506