%0 Journal Article
%T Supersymmetry parameter analysis: SPA convention and project
%+ Laboratoire de l'Accélérateur Linéaire (LAL)
%+ Laboratoire de Physique Subatomique et de Cosmologie (LPSC)
%+ Laboratoire de Physique Théorique et Astroparticules (LPTA)
%+ Laboratoire d'Annecy de Physique des Particules (LAPP)
%+ Institut de Physique Nucléaire de Lyon (IPNL)
%A Aguilar-Saavedra, J. A.
%A Ali, A.
%A Allanach, B. C.
%A Arnowitt, R.
%A Baer, H. A.
%A Bagger, J. A.
%A Balazs, C.
%A Barger, V.
%A Barnett, M.
%A Bartl, A.
%A Battaglia, M.
%A Bechtle, P.
%A Belanger, G.
%A Belyaev, A.
%A Berger, E. L.
%A Blair, G.
%A Boos, E.
%A Carena, M.
%A Choi, S. Y.
%A Deppisch, F.
%A de Roeck, A.
%A Desch, K.
%A Diaz, M. A.
%A Djouadi, A.
%A Dutta, B.
%A Dutta, S.
%A Eberl, H.
%A Ellis, J.
%A Erler, J.
%A Fraas, H.
%A Freitas, A.
%A Fritzsche, T.
%A Godbole, R. M.
%A Gounaris, G. J.
%A Guasch, J.
%A Gunion, J.
%A Haba, N.
%A Haber, H. E.
%A Hagiwara, K.
%A Han, L.
%A Han, T.
%A He, H. -J.
%A Heinemeyer, S.
%A Hesselbach, S.
%A Hidaka, K.
%A Hinchliffe, I.
%A Hirsch, M.
%A Hohenwarter-Sodek, K.
%A Hollik, W.
%A Hou, W. S.
%A Hurth, T.
%A Jack, I.
%A Jiang, Yuchao
%A Jones, D. R. T.
%A Kalinowski, J.
%A Kamon, T.
%A Kane, G.
%A Kang, S. K.
%A Kernreiter, T.
%A Kilian, W.
%A Kim, C. S.
%A King, S. F.
%A Kittel, O.
%A Klasen, M.
%A Kneur, J. -L.
%A Kovarik, K.
%A Kramer, M.
%A Kraml, S.
%A Lafaye, R.
%A Langacker, P.
%A Logan, H. E.
%A Ma, W. -G.
%A Majerotto, W.
%A Martyn, H. -U.
%A Matchev, K.
%A Miller, D. J.
%A Mondragon, M.
%A Moortgat-Pick, G.
%A Moretti, S.
%A Mori, T.
%A Moultaka, G.
%A Muanza, G.-S.
%A Muhlleitner, M. M.
%A Mukhopadhyaya, B.
%A Nauenberg, U.
%A Nojiri, M. M.
%A Nomura, D.
%A Nowak, H.
%A Okada, N.
%A Olive, K. A.
%A Oller, W.
%A Peskin, M.
%A Plehn, T.
%A Polesello, G.
%A Porod, W.
%A Quevedo, F.
%A Rainwater, D.
%A Reuter, J.
%A Richardson, P.
%A Rolbiecki, K.
%A Roy, Pascal
%A Ruckl, R.
%A Rzehak, H.
%A Schleper, P.
%A Siyeon, K.
%A Skands, P.
%A Slavich, Pietro
%A Stockinger, D.
%A Sphicas, P.
%A Spira, M.
%A Tait, T.
%A Tovey, D. R.
%A Valle, J. W. F.
%A Wagner, C. E. M.
%A Weber, Ch.
%A Weiglein, G.
%A Wienemann, P.
%A Xing, Z. -Z.
%A Yamada, Y.
%A Yang, J. M.
%A Zerwas, D.
%A Zerwas, P. M.
%A Zhang, R. -Y.
%A Zhang, X.
%A Zhu, S. -H.
%Z 17pp; references corrected
%< avec comité de lecture
%Z CERN-PH-TH/2005-232, DESY 05-242, FERMILAB-PUB-05-524-T, KEK-TH-1054, SLAC-PUB-11579, LPSC 05134
%@ 1434-6044
%J European Physical Journal C: Particles and Fields
%I Springer Verlag (Germany)
%V 46
%P 43-60
%8 2006
%D 2006
%Z hep-ph/0511344
%R 10.1140/epjc/s2005-02460-1
%Z Physics [physics]/High Energy Physics - Phenomenology [hep-ph]Journal articles
%X High-precision analyses of supersymmetry parameters aim at reconstructing the fundamental supersymmetric theory and its breaking mechanism. A well defined theoretical framework is needed when higher-order corrections are included. We propose such a scheme, Supersymmetry Parameter Analysis SPA, based on a consistent set of conventions and input parameters. A repository for computer programs is provided which connect parameters in different schemes and relate the Lagrangian parameters to physical observables at LHC and high energy e+e- linear collider experiments, i.e., masses, mixings, decay widths and production cross sections for supersymmetric particles. In addition, programs for calculating high-precision low energy observables, the density of cold dark matter (CDM) in the universe as well as the cross sections for CDM search experiments are included. The SPA scheme still requires extended efforts on both the theoretical and experimental side before data can be evaluated in the future at the level of the desired precision. We take here an initial step of testing the SPA scheme by applying the techniques involved to a specific supersymmetry reference point.
%G English
%L in2p3-00025241
%U https://hal.in2p3.fr/in2p3-00025241
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