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FDCSUSYDecay: an MSSM decay package. (English) Zbl 1196.81037
Summary: FDCSUSYDecay is a FORTRAN program package generated by FDC (Feynman Diagram Calculation) system fully automatically. It is dedicated to calculate at tree-level all the possible 2-body decays of SUSY and Higgs particles in the Minimal Supersymmetric extension of the Standard Model (MSSM). The format of its output files complies with SUSY Les Houches Accord and can be easily imported by other packages.
MSC:
81-04 Software, source code, etc. for problems pertaining to quantum theory
81Q30 Feynman integrals and graphs; applications of algebraic topology and algebraic geometry
Software:
FDCSUSYDecay
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References:
[1] Boose, E., INP MSU-94-36/358, SNUTP 94-116 (Seoul, 1994)
[2] T. Ishikawa et al., Grace manual, KEK report 92-19, 1993
[3] Wang, J.X., Nucl. instrum. methods A, 534, 241, (2004)
[4] J.X. Wang, Prepared for 6th Accelerator and Particle Physics Institute (APPI 2001), Morioka, Japan, 20-23 February 2001. Published in April 2001, Accelerator and Particle Physics, pp. 108-121
[5] W. Qi, J.X. Wang, in preparing
[6] Djouadi, A., Comput. phys. comm., 108, 56, (1998)
[7] Muhlleitner, M., Comput. phys. comm., 168, 46, (2005)
[8] Battaglia, M., Eur. phys. J. C, 25, 113, (2002)
[9] Skands, P., Jhep, 0407, 036, (2004)
[10] Baer, H., ISA JET 7.69: A Monte Carlo event generator for pp, p¯p, and e+e− reactions
[11] Ghodbane, N.; Martyn, H.U., Compilation of SUSY particle spectra from snowmass 2001 benchmark
[12] CERN Program Library, URL: http://cernlib.web.cern.ch/cernlib/
[13] Phys. lett. B, 592, 1, (2004)
[14] Kuroda, M.; Haber, H.E.; Kane, G.L.; Gunion, J.; Haber, H.; Kane, G.; Dawson, S., The Higgs Hunter’s guide, Phys. rep., 117, 75, (1990), Addison-Wesley New York
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