Presenting LiteRed: a tool for the Loop InTEgrals REDuction. Mathematica package LiteRed is described. It performs the heuristic search of the symbolic IBP reduction rules for loop integrals. It implements also several convenient tools for the search of the symmetry relations, construction of the differential equations and dimensional recurrence relations.

References in zbMATH (referenced in 77 articles )

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  1. Chetyrkin, K. G.; Grozin, A. G.: Correlators of heavy-light quark currents in HQET: OPE at three loops (2022)
  2. Xiao Liu, Yan-Qing Ma: AMFlow: a Mathematica Package for Feynman integrals computation via Auxiliary Mass Flow (2022) arXiv
  3. Bezuglov, M. A.; Onishchenko, A. I.; Veretin, O. L.: Massive kite diagrams with elliptics (2021)
  4. Blümlein, J.; Marquard, P.; Schneider, C.; Schönwald, K.: The three-loop unpolarized and polarized non-singlet anomalous dimensions from off shell operator matrix elements (2021)
  5. Di Vecchia, Paolo; Heissenberg, Carlo; Russo, Rodolfo; Veneziano, Gabriele: The eikonal approach to gravitational scattering and radiation at (\mathcalO(G^3)) (2021)
  6. Frellesvig, Hjalte; Gasparotto, Federico; Laporta, Stefano; Mandal, Manoj K.; Mastrolia, Pierpaolo; Mattiazzi, Luca; Mizera, Sebastian: Decomposition of Feynman integrals by multivariate intersection numbers (2021)
  7. Heinrich, Gudrun: Collider physics at the precision frontier (2021)
  8. Kompaniets, Mikhail; Pikelner, Andrey: Critical exponents from five-loop scalar theory renormalization near six-dimensions (2021)
  9. Ablinger, J.; Blümlein, J.; De Freitas, A.; Schönwald, K.: Subleading logarithmic QED initial state corrections to (e^+ e^- \to\gamma^\ast/ Z^0^\ast) to (O(\alpha^6 L^5)) (2020)
  10. Adam Bzowski: TripleK: A Mathematica package for evaluating triple-K integrals and conformal correlation functions (2020) arXiv
  11. Bianchi, Marco S.: On three-point functions in ABJM and the latitude Wilson loop (2020)
  12. Brandhuber, Andreas; Travaglini, Gabriele: On higher-derivative effects on the gravitational potential and particle bending (2020)
  13. Martijn Hidding: DiffExp, a Mathematica package for computing Feynman integrals in terms of one-dimensional series expansions (2020) arXiv
  14. Smirnov, A. V.; Smirnov, V. A.: How to choose master integrals (2020)
  15. Abreu, Samuel; Page, Ben; Zeng, Mao: Differential equations from unitarity cuts: nonplanar hexa-box integrals (2019)
  16. Ahmed, Taushif; Dhani, Prasanna K.: Two-loop doubly massive four-point amplitude involving a half-BPS and Konishi operator (2019)
  17. Badger, Simon; Brønnum-Hansen, Christian; Hartanto, Heribertus Bayu; Peraro, Tiziano: Analytic helicity amplitudes for two-loop five-gluon scattering: the single-minus case (2019)
  18. Banerjee, Pulak; Chakraborty, Amlan; Dhani, Prasanna K.; Ravindran, V.; Seth, Satyajit: Second order splitting functions and infrared safe cross sections in $ \mathcalN = 4 $ SYM theory (2019)
  19. Bianchi, Marco S.: A note on three-point functions of unprotected operators (2019)
  20. Bianchi, Marco S.: On structure constants with two spinning twist-two operators (2019)

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