UFO - The Universal FeynRules Output

[1]  N. Greiner,et al.  Automated one-loop calculations with GoSam , 2011, 1111.2034.

[2]  William Link,et al.  ALOHA: Automatic libraries of helicity amplitudes for Feynman diagram computations , 2011, Comput. Phys. Commun..

[3]  F. Maltoni,et al.  MadGraph 5: going beyond , 2011, 1106.0522.

[4]  Rikkert Frederix,et al.  Automation of one-loop QCD computations , 2011, 1103.0621.

[5]  Claude Duhr,et al.  A superspace module for the FeynRules package , 2011, Comput. Phys. Commun..

[6]  E. Pilon,et al.  Modern Feynman Diagrammatic One-Loop Calculations , 2010 .

[7]  J. Reuter,et al.  Exploring the golden channel for HEIDI models using an interface between Whizard and FeynRules , 2010 .

[8]  B. Fuks,et al.  Introducing an interface between WHIZARD and FeynRules , 2010, 1010.3251.

[9]  R. Pittau,et al.  Feynman rules for the rational part of the electroweak 1-loop amplitudes in the Rξ gauge and in the unitary gauge , 2010, 1009.4302.

[10]  D Maître,et al.  Precise predictions for W+4-jet production at the large hadron collider. , 2010, Physical review letters.

[11]  G. Ossola,et al.  Tensorial reconstruction at the integrand level , 2010, 1008.2441.

[12]  Alberto Guffanti,et al.  Recent Progress in the Golem Project , 2010, 1007.3580.

[13]  P. Mastrolia,et al.  Scattering amplitudes from unitarity-based reduction algorithm at the integrand-level , 2010, 1006.0710.

[14]  R. Pittau,et al.  Feynman rules for the rational part of the electroweak 1-loop amplitudes , 2009, 0910.3130.

[15]  Tim Stelzer,et al.  Automation of next-to-leading order computations in QCD: the FKS subtraction , 2009, 0908.4272.

[16]  Claude Duhr,et al.  A comprehensive approach to new physics simulations , 2009, 0906.2474.

[17]  M. Worek,et al.  Polarizing the dipoles , 2009, 0905.0883.

[18]  R. Pittau,et al.  Automated one-loop calculations: a proof of concept , 2009, 0903.4665.

[19]  R. Pittau,et al.  Feynman rules for the rational part of the QCD 1-loop amplitudes , 2009, 0903.0356.

[20]  D Maître,et al.  Precise predictions for w+3 jet production at hadron colliders. , 2009, Physical review letters.

[21]  Giulia Zanderighi,et al.  Generalized unitarity at work: First NLO QCD results for hadronic W+3 jet production , 2009, 0901.4101.

[22]  F. Siegert,et al.  Event generation with SHERPA 1.1 , 2008, 0811.4622.

[23]  G. Zanderighi,et al.  Recent theoretical progress in perturbative QCD , 2008, 0810.3524.

[24]  Claude Duhr,et al.  New Developments in MadGraph/MadEvent , 2008, 0809.2410.

[25]  T. Gleisberg,et al.  Comix, a new matrix element generator , 2008, 0808.3674.

[26]  Rikkert Frederix,et al.  MadDipole: automation of the dipole subtraction method in MadGraph/MadEvent , 2008, 0808.2128.

[27]  S. Moch,et al.  Automating dipole subtraction , 2008, 0807.3701.

[28]  Claude Duhr,et al.  FeynRules - Feynman rules made easy , 2008, Comput. Phys. Commun..

[29]  Michael H. Seymour,et al.  TeVJet: A general framework for the calculation of jet observables in NLO QCD , 2008, 0803.2231.

[30]  M. Gigg,et al.  Herwig++ physics and manual , 2008, 0803.0883.

[31]  R. Pittau,et al.  On the rational terms of the one-loop amplitudes , 2008, 0802.1876.

[32]  Thomas Hahn,et al.  SUSY Les Houches Accord 2 , 2007, Comput. Phys. Commun..

[33]  A. Sherstnev,et al.  A Les Houches Interface for BSM Generators , 2007, 0712.3311.

[34]  Alessandro Cafarella,et al.  Helac-Phegas: A generator for all parton level processes , 2007, Comput. Phys. Commun..

[35]  Tanju Gleisberg,et al.  Automating dipole subtraction for QCD NLO calculations , 2007, 0709.2881.

[36]  W. Kilian,et al.  WHIZARD—simulating multi-particle processes at LHC and ILC , 2007, 0708.4233.

[37]  Tim Stelzer,et al.  MadGraph/MadEvent v4: The New Web Generation , 2007, 0706.2334.

[38]  R. Pittau,et al.  Numerical evaluation of six-photon amplitudes , 2007, 0704.1271.

[39]  R. Rattazzi,et al.  The Strongly-Interacting Light Higgs , 2007, hep-ph/0703164.

[40]  R. Pittau,et al.  Reducing full one-loop amplitudes to scalar integrals at the integrand level , 2006, hep-ph/0609007.

[41]  A. Pukhov CalcHEP 2.3: MSSM, structure functions, event generation, batchs, and generation of matrix elements for other packages , 2004, hep-ph/0412191.

[42]  E. Boos,et al.  CompHEP 4.4 - Automatic Computations from Lagrangians to Events , 2004, hep-ph/0403113.

[43]  P Skands,et al.  SUSY Les Houches accord: interfacing SUSY spectrum calculators, decay packages, and event generators , 2003, hep-ph/0311123.

[44]  F. Maltoni,et al.  MadEvent: Automatic event generation with MadGraph , 2002, hep-ph/0208156.

[45]  R. Pittau,et al.  ALPGEN, a generator for hard multiparton processes in hadronic collisions , 2002, hep-ph/0206293.

[46]  T. Hahn Generating Feynman Diagrams and Amplitudes with FeynArts 3 , 2000, hep-ph/0012260.

[47]  T. Ohl O’Mega: An optimizing matrix element generator , 2000, hep-ph/0102195.

[48]  J. Vermaseren New features of FORM , 2000, math-ph/0010025.

[49]  Mikhail Dubinin,et al.  CompHEP - a package for evaluation of Feynman diagrams and integration over multi-particle phase space. User's manual for version 33 , 1999 .

[50]  Hayes,et al.  Review of Particle Physics. , 1996, Physical review. D, Particles and fields.

[51]  T. Stelzer,et al.  Automatic generation of tree level helicity amplitudes , 1994, hep-ph/9401258.

[52]  P. Nogueira Automatic Feynman graph generation , 1993 .

[53]  S. Moretti,et al.  HERWIG 6: an event generator for hadron emission reactions with interfering gluons (including supersymmetric processes) , 2001 .

[54]  Mikhail Dubinin,et al.  CompHEP - a package for evaluation of Feynman diagrams and integration over multi-particle phase space. User's manual for version 33 , 1999, hep-ph/9908288.