JaxoDraw

JaxoDraw: A graphical user interface for drawing Feynman diagrams. A new version of the Feynman graph plotting tool JaxoDraw is presented. Version 2.0 is a fundamental re-write of most of the JaxoDraw core and some functionalities, in particular importing graphs, are not backward-compatible with the 1.x branch. The most prominent new features include: drawing of Bézier curves for all particle modes, on-the-fly update of edited objects, multiple undo/redo functionality, the addition of a plugin infrastructure, and a general improved memory performance. A new LaTeX style file is presented that has been written specifically on top of the original axodraw.sty to meet the needs of this new version.


References in zbMATH (referenced in 85 articles )

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  1. Frellesvig, Hjalte; Gasparotto, Federico; Laporta, Stefano; Mandal, Manoj K.; Mastrolia, Pierpaolo; Mattiazzi, Luca; Mizera, Sebastian: Decomposition of Feynman integrals by multivariate intersection numbers (2021)
  2. Levi, Michèle; Mougiakakos, Stavros; Vieira, Mariana: Gravitational cubic-in-spin interaction at the next-to-leading post-Newtonian order (2021)
  3. Plätzer, Simon; Ruffa, Ines: Towards colour flow evolution at two loops (2021)
  4. Prinz, David: Algebraic structures in the coupling of gravity to gauge theories (2021)
  5. Panzer, Erik: Some open problems on Feynman periods (2020)
  6. Upalaparna Banerjee, Joydeep Chakrabortty, Suraj Prakash, Shakeel Ur Rahaman: Characters and Group Invariant Polynomials of (Super)fields: Road to ”Lagrangian” (2020) arXiv
  7. Wu, Jun-bao; Tian, Jia; Chen, Bin: Loop operators in three-dimensional (\mathcalN= 2) fishnet theories (2020)
  8. Binosi, D.; Quadri, A.: Off-shell renormalization in the presence of dimension 6 derivative operators.I: General theory (2019)
  9. Bitoun, Thomas; Bogner, Christian; Klausen, René Pascal; Panzer, Erik: Feynman integral relations from parametric annihilators (2019)
  10. D’Ambrosio, Giancarlo; Greynat, David; Knecht, Marc: Matching long and short distances in the form factors for (K \rightarrow \pi\ell^+\ell^-) (2019)
  11. Frellesvig, Hjalte; Gasparotto, Federico; Laporta, Stefano; Mandal, Manoj K.; Mastrolia, Pierpaolo; Mattiazzi, Luca; Mizera, Sebastian: Decomposition of Feynman integrals on the maximal cut by intersection numbers (2019)
  12. von Manteuffel, Andreas; Schabinger, Robert M.: Planar master integrals for four-loop form factors (2019)
  13. Adzhemyan, L. Ts; Ivanova, E. V.; Kompaniets, M. V.; Vorobyeva, S. Ye: Diagram reduction in problem of critical dynamics of ferromagnets: 4-loop approximation (2018)
  14. Baggio, Marco; Bobev, Nikolay; Chester, Shai M.; Lauria, Edoardo; Pufu, Silviu S.: Decoding a three-dimensional conformal manifold (2018)
  15. Bali, Gunnar S.; Bruns, Peter C.; Castagnini, Luca; Diehl, Markus; Gaunt, Jonathan R.; Gläßle, Benjamin; Schäfer, Andreas; Sternbeck, André; Zimmermann, Christian: Two-current correlations in the pion on the lattice (2018)
  16. Centelles Chuliá, Salvador; Srivastava, Rahul; Valle, José W. F.: Seesaw roadmap to neutrino mass and dark matter (2018)
  17. Corcella, Gennaro; Franceschini, Roberto; Kim, Doojin: Fragmentation uncertainties in hadronic observables for top-quark mass measurements (2018)
  18. Bosma, Jorrit; Sogaard, Mads; Zhang, Yang: Maximal cuts in arbitrary dimension (2017)
  19. Chattopadhyay, Pratik; Patel, Ketan M.: Discrete symmetries for electroweak natural type-I seesaw mechanism (2017)
  20. Harley, Mark; Moriello, Francesco; Schabinger, Robert M.: Baikov-Lee representations of cut Feynman integrals (2017)

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