no code implementations • 31 Dec 2020 • P. Slavich, S. Heinemeyer, E. Bagnaschi, H. Bahl, M. Goodsell, H. E. Haber, T. Hahn, R. Harlander, W. Hollik, G. Lee, M. Mühlleitner, S. Paßehr, H. Rzehak, D. Stöckinger, A. Voigt, C. E. M. Wagner, G. Weiglein, B. C. Allanach, T. Biekötter, S. Borowka, J. Braathen, M. Carena, T. N. Dao, G. Degrassi, F. Domingo, P. Drechsel, U. Ellwanger, M. Gabelmann, R. Gröber, J. Klappert, T. Kwasnitza, D. Meuser, L. Mihaila, N. Murphy, K. Nickel, W. Porod, E. A. Reyes Rojas, I. Sobolev, F. Staub
The discovery of a Higgs boson and the remarkably precise measurement of its mass at the LHC have spurred new efforts aimed at improving the accuracy of the theoretical predictions for the Higgs masses in supersymmetric models.
High Energy Physics - Phenomenology
1 code implementation • 3 Apr 2019 • M. Krause, M. Mühlleitner
By giving out the leading-order and the loop-corrected partial decay widths separately from the branching ratios, the program ewN2HDECAY not only allows for phenomenological analyses of the N2HDM at highest precision, it can also be used for a study of the impact of the electroweak corrections and the remaining theoretical uncertainty due to missing higher-order corrections based on a change of the renormalization scheme.
High Energy Physics - Phenomenology
no code implementations • 28 Mar 2018 • G. Brooijmans, M. Dolan, S. Gori, F. Maltoni, M. McCullough, P. Musella, L. Perrozzi, P. Richardson, F. Riva, A. Angelescu, S. Banerjee, D. Barducci, G. Bélanger, B. Bhattacherjee, M. Borsato, A. Buckley, J. M. Butterworth, G. Cacciapaglia, H. Cai, A. Carvalho, A. Chakraborty, G. Cottin, A. Deandrea, J. de Blas, N. Desai, M. Endo, N. Ezroura, G. Facini, S. Fichet, L. Finco, T. Flacke, B. Fuks, P. Gardner, S. Gascon-Shotkin, A. Goudelis, P. Gras, D. Grellscheid, R. Gröber, D. Guadagnoli, U. Haisch, J. Harz, J. Heisig, B. Herrmann, J. Hewett, T. Hryn'ova, J. F. Kamenik, S. Kraml, U. Laa, K. Lane, A. Lessa, S. Liebler, K. Lohwasser, D. M. Lombardo, D. Majumder, A. Malinauskas, O. Mattelaer, K. Mimasu, G. Moreau, M. Mühlleitner, A. E. Nelson, J. M. No, M. M. Nojiri, P. Pani, L. Panizzi, M. Park, G. Polesello, W. Porod, L. Pritchett, H. B. Prosper, A. Pukhov, J. Quevillon, T. Rizzo, P. Roloff, H. Rzehak, S. Sekmen, D. Sengupta, M. Spira, C. Vernieri, D. G. E. Walker, D. Yallup, B. Zaldivar, S. Zhang, J. Zurita
We present the activities of the `New Physics' working group for the `Physics at TeV Colliders' workshop (Les Houches, France, 5--23 June, 2017).
High Energy Physics - Phenomenology
no code implementations • 9 May 2016 • G. Brooijmans, C. Delaunay, A. Delgado, C. Englert, A. Falkowski, B. Fuks, S. Nikitenko, S. Sekmen, D. Barducci, J. Bernon, A. Bharucha, J. Brehmer, I. Brivio, A. Buckley, D. Burns, G. Cacciapaglia, H. Cai, A. Carmona, A. Carvalho, G. Chalons, Y. Chen, R. S. Chivukula, E. Conte, A. Deandrea, N. De Filippis, N. Desai, T. Flacke, M. Frigerio, M. Garcia-Pepin, S. Gleyzer, A. Goudelis, F. Goertz, P. Gras, S. Henrot-Versillé, J. L. Hewett, P. Ittisamai, A. Katz, J. Kopp, S. Kraml, M. E. Krauss, S. Kulkarni, U. Laa, S. Lacroix, K. Lane, D. Majumder, A. Martin, K. Mawatari, K. Mohan, D. M. Morse, K. Mimasu, M. Mühlleitner, M. Nardecchia, J. M. No, R. D. Orlando, P. Pani, M. Papucci, G. Polesello, C. Pollard, W. Porod, H. B. Prosper, M. Quirós, T. Rizzo, K. Sakurai, J. Santiago, V. Sanz, T. Schmidt, D. Schmeier, D. Sengupta, H. -S. Shao, E. H. Simmons, J. Sonneveld, T. Spieker, M. Spira, J. Tattersall, G. Unel, R. Vega-Morales, W. Waltenberger, A. Weiler, T. You, O. A. Zapata, D. Zerwas
We present the activities of the 'New Physics' working group for the 'Physics at TeV Colliders' workshop (Les Houches, France, 1-19 June, 2015).
High Energy Physics - Phenomenology High Energy Physics - Experiment
3 code implementations • 10 Nov 2003 • P. Skands, B. C. Allanach, H. Baer, C. Balázs, G. Bélanger, F. Boudjema, A. Djouadi, R. Godbole, J. Guasch, S. Heinemeyer, W. Kilian, J-L. Kneur, S. Kraml, F. Moortgat, S. Moretti, M. Mühlleitner, W. Porod, A. Pukhov, P. Richardson, S. Schumann, P. Slavich, M. Spira, G. Weiglein
An accord specifying a unique set of conventions for supersymmetric extensions of the Standard Model together with generic file structures for 1) supersymmetric model specifications and input parameters, 2) electroweak scale supersymmetric mass and coupling spectra, and 3) decay tables is defined, to provide a universal interface between spectrum calculation programs, decay packages, and high energy physics event generators.
High Energy Physics - Phenomenology