FeynRules

Beyond the minimal supersymmetric standard model: from theory to phenomenology. Thanks to the latest development in the field of Monte Carlo event generators and satellite programs allowing for a straightforward implementation of any beyond the standard model theory in those tools, studying the property of any softly-broken supersymmetric theory is become an easy task. We illustrate this statement in the context of two nonminimal supersymmetric theories, namely the minimal supersymmetric standard model with $R$-parity violation and the minimal $R$-symmetric supersymmetric standard model and choose to probe interaction vertices involving a nonstandard color structure and the sector of the top quark. We show how to efficiently implement these theories in the {sc Mathematica} package {sc FeynRules} and use its interfaces to Monte Carlo tools for phenomenological studies. For the latter, we employ the latest version of the {sc MadGraph} program.


References in zbMATH (referenced in 100 articles , 2 standard articles )

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  1. Denner, Ansgar; Dittmaier, Stefan: Electroweak radiative corrections for collider physics (2020)
  2. Fontes, Duarte; Lavoura, Luís; Romão, Jorge C.; Silva, João P.: One-loop corrections to the (Z b \barb) vertex in models with scalar doublets and singlets (2020)
  3. Guo, Yu-Chen; Wang, Ying-Ying; Yang, Ji-Chong: Constraints on anomalous quartic gauge couplings by (\gamma\gamma\rightarrowW^+W^-) scattering (2020)
  4. Ilaria Brivio: SMEFTsim 3.0 - a practical guide (2020) arXiv
  5. Ilyushin, M.; Mandrik, P.; Slabospitskii, S.: Constraints on the Higgs boson anomalous FCNC interactions with light quarks (2020)
  6. Khanpour, Hamzeh: Probing top quark FCNC couplings in the triple-top signal at the high energy LHC and future circular collider (2020)
  7. Kitabayashi, Teruyuki; Yasuè, Masaki: Spinorial structure of (O(3)) and application to dark matter (2020)
  8. Seibold, Fiona K.; van Tongeren, Stijn J.; Zimmermann, Yannik: The twisted story of worldsheet scattering in (\eta)-deformed (\mathrmAdS_5 \timesS^5) (2020)
  9. Tapia, Sebastian; Zamora-Saá, Jilberto: Exploring CP-violating heavy neutrino oscillations in rare tau decays at Belle II (2020)
  10. A. Dedes, M. Paraskevas, J. Rosiek, K. Suxho, L. Trifyllis: SmeftFR - Feynman rules generator for the Standard Model Effective Field Theory (2019) arXiv
  11. Cakir, O.; Yilmaz, A.; Turk Cakir, I.; Senol, A.; Denizli, H.: Probing top quark FCNC \textittq(\gamma) and \textittqZcouplings at future electron-proton colliders (2019)
  12. Camargo, Daniel A.; Campos, Miguel D.; de Melo, Téssio B.; Queiroz, Farinaldo S.: A two Higgs doublet model for dark matter and neutrino masses (2019)
  13. Dekens, Wouter; Stoffer, Peter: Low-energy effective field theory below the electroweak scale: matching at one loop (2019)
  14. Hou, Jin-Xin; Yue, Chong-Xing; Zhao, Zhen-hua: Detecting the light gauge boson (Z_\mu\tau) via Higgstrahlung process in the (\operatornameU(1)_L_\mu- L_\tau) model at (e^+e^-) colliders (2019)
  15. Nomura, Takaaki; Okada, Hiroshi: A one-loop neutrino mass model with $\operatornameSU(2)_L$ multiplet fields (2019)
  16. Adam Falkowski, Benjamin Fuks, Kentarou Mawatari, Ken Mimasu, Francesco Riva, Verónica sanz: Rosetta: an operator basis translator for Standard Model effective field theory (2018) arXiv
  17. Araz, Jack Y.; Corcella, Gennaro; Frank, Mariana; Fuks, Benjamin: Loopholes in (Z’) searches at the LHC: exploring supersymmetric and leptophobic scenarios (2018)
  18. Bai, Dong; Xing, Yu-Hang: Higher derivative theories for interacting massless gravitons in Minkowski spacetime (2018)
  19. Brádler, Kamil: A novel approach to perturbative calculations for a large class of interacting boson theories (2018)
  20. Chowdhury, Talal Ahmed; Rahman, Rakibur; Sabuj, Zulfiqar Ali: Gravitational properties of the Proca field (2018)