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SuperB Progress Reports - Physics
SuperB is a high luminosity e+e- collider that will be able to indirectly probe new physics at energy scales far beyond the reach of any man made accelerator planned or in existence. Just as detailed understanding of the Standard Model of particle physics was developed from stringent constraints imp...
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Formato: | info:eu-repo/semantics/article |
Lenguaje: | eng |
Publicado: |
2010
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Materias: | |
Acceso en línea: | http://cds.cern.ch/record/1284223 |
_version_ | 1780920542804574208 |
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author | O'Leary, B. Matias, J. Ramon, M. Pous, E. De Fazio, F. Palano, A. Eigen, G. Asgeirsson, D. Cheng, C.H. Chivukula, A. Echenard, B. Hitlin, D.G. Porter, F. Rakitin, A. Heinemeyer, S. McElrath, B. Andreassen, R. Meadows, B. Sokoloff, M. Blanke, M. Lesiak, T. Shindou, T. Ronga, F. Baldini, W. Bettoni, D. Calabrese, R. Cibinetto, G. Luppi, E. Rama, M. Bossi, F. Guido, E. Patrignani, C. Tosi, S. Davies, C. Lunghi, E. Haisch, U. Hurth, T. Westhoff, S. Crivellin, A. Hofer, L. Goto, T. Brown, David Nathan Branco, G.C. Zupan, J. Herrero, M. Rodriguez-Sanchez, A. Simi, G. Tackmann, F.J. Biassoni, P. Lazzaro, A. Lombardo, V. Palombo, F. Stracka, S. Lindemann, D.M. Robertson, S.H. Duling, B. Gemmler, K. Gorbahn, M. Jager, S. Paradisi, P. Straub, D.M. Bigi, I. Asner, D.M. Fast, J.E. Kouzes, R.T. Morandin, M. Rotondo, M. Ben-Haim, E. Arnaud, N. Burmistrov, L. Kou, E. Perez, A. Stocchi, A. Viaud, B. Domingo, F. Piccinini, F. Manoni, E. Batignani, G. Cervelli, A. Forti, F. Giorgi, M. Lusiani, A. Oberhof, B. Paoloni, E. Neri, N. Walsh, J. Bevan, A. Bona, M. Walker, C. Weiland, C. Lenz, A. Gonzalez-Sprinberg, G. Faccini, R. Renga, F. Polosa, A. Silvestrini, L. Virto, J. Ciuchini, M. Lubicz, V. Tarantino, C. Wilson, F.F. Carpinelli, M. Huber, T. Mannel, T. Graham, M. Ratcliff, B.N. Santoro, V. Sekula, S. Shougaev, K. Soffer, A. Shimizu, Y. Gambino, P. Mussa, R. Nardecchia, M. Stal, O. Bernabeu, J. Botella, F. Jung, M. Lopez March, N. Martinez Vidal, F. Oyanguren, A. Pich, A. Lozano, M.A.Sanchis Vidal, J. Vives, O. Banerjee, S. Roney, J.M. Petrov, A.A. Flood, K. |
author_facet | O'Leary, B. Matias, J. Ramon, M. Pous, E. De Fazio, F. Palano, A. Eigen, G. Asgeirsson, D. Cheng, C.H. Chivukula, A. Echenard, B. Hitlin, D.G. Porter, F. Rakitin, A. Heinemeyer, S. McElrath, B. Andreassen, R. Meadows, B. Sokoloff, M. Blanke, M. Lesiak, T. Shindou, T. Ronga, F. Baldini, W. Bettoni, D. Calabrese, R. Cibinetto, G. Luppi, E. Rama, M. Bossi, F. Guido, E. Patrignani, C. Tosi, S. Davies, C. Lunghi, E. Haisch, U. Hurth, T. Westhoff, S. Crivellin, A. Hofer, L. Goto, T. Brown, David Nathan Branco, G.C. Zupan, J. Herrero, M. Rodriguez-Sanchez, A. Simi, G. Tackmann, F.J. Biassoni, P. Lazzaro, A. Lombardo, V. Palombo, F. Stracka, S. Lindemann, D.M. Robertson, S.H. Duling, B. Gemmler, K. Gorbahn, M. Jager, S. Paradisi, P. Straub, D.M. Bigi, I. Asner, D.M. Fast, J.E. Kouzes, R.T. Morandin, M. Rotondo, M. Ben-Haim, E. Arnaud, N. Burmistrov, L. Kou, E. Perez, A. Stocchi, A. Viaud, B. Domingo, F. Piccinini, F. Manoni, E. Batignani, G. Cervelli, A. Forti, F. Giorgi, M. Lusiani, A. Oberhof, B. Paoloni, E. Neri, N. Walsh, J. Bevan, A. Bona, M. Walker, C. Weiland, C. Lenz, A. Gonzalez-Sprinberg, G. Faccini, R. Renga, F. Polosa, A. Silvestrini, L. Virto, J. Ciuchini, M. Lubicz, V. Tarantino, C. Wilson, F.F. Carpinelli, M. Huber, T. Mannel, T. Graham, M. Ratcliff, B.N. Santoro, V. Sekula, S. Shougaev, K. Soffer, A. Shimizu, Y. Gambino, P. Mussa, R. Nardecchia, M. Stal, O. Bernabeu, J. Botella, F. Jung, M. Lopez March, N. Martinez Vidal, F. Oyanguren, A. Pich, A. Lozano, M.A.Sanchis Vidal, J. Vives, O. Banerjee, S. Roney, J.M. Petrov, A.A. Flood, K. |
author_sort | O'Leary, B. |
collection | CERN |
description | SuperB is a high luminosity e+e- collider that will be able to indirectly probe new physics at energy scales far beyond the reach of any man made accelerator planned or in existence. Just as detailed understanding of the Standard Model of particle physics was developed from stringent constraints imposed by flavour changing processes between quarks, the detailed structure of any new physics is severely constrained by flavour processes. In order to elucidate this structure it is necessary to perform a number of complementary studies of a set of golden channels. With these measurements in hand, the pattern of deviations from the Standard Model behavior can be used as a test of the structure of new physics. If new physics is found at the LHC, then the many golden measurements from SuperB will help decode the subtle nature of the new physics. However if no new particles are found at the LHC, SuperB will be able to search for new physics at energy scales up to 10-100 TeV. In either scenario, flavour physics measurements that can be made at SuperB play a pivotal role in understanding the nature of physics beyond the Standard Model. Examples for using the interplay between measurements to discriminate New Physics models are discussed in this document. SuperB is a Super Flavour Factory, in addition to studying large samples of B_{u,d,s}, D and tau decays, SuperB has a broad physics programme that includes spectroscopy both in terms of t he Standard Model and exotica, and precision measurements of sin^2theta_W. In addition to performing CP violation measurements at the Y(4S) and phi(3770), SuperB will test CPT in these systems, and lepton universality in a number of different processes. The multitude of rare decay measurements possible at SuperB can be used to constrain scenarios of physics beyond the Standard Model. ... |
format | info:eu-repo/semantics/article |
id | cern-1284223 |
institution | Organización Europea para la Investigación Nuclear |
language | eng |
publishDate | 2010 |
record_format | invenio |
spelling | cern-12842232023-04-26T02:29:49Z http://cds.cern.ch/record/1284223 eng O'Leary, B. Matias, J. Ramon, M. Pous, E. De Fazio, F. Palano, A. Eigen, G. Asgeirsson, D. Cheng, C.H. Chivukula, A. Echenard, B. Hitlin, D.G. Porter, F. Rakitin, A. Heinemeyer, S. McElrath, B. Andreassen, R. Meadows, B. Sokoloff, M. Blanke, M. Lesiak, T. Shindou, T. Ronga, F. Baldini, W. Bettoni, D. Calabrese, R. Cibinetto, G. Luppi, E. Rama, M. Bossi, F. Guido, E. Patrignani, C. Tosi, S. Davies, C. Lunghi, E. Haisch, U. Hurth, T. Westhoff, S. Crivellin, A. Hofer, L. Goto, T. Brown, David Nathan Branco, G.C. Zupan, J. Herrero, M. Rodriguez-Sanchez, A. Simi, G. Tackmann, F.J. Biassoni, P. Lazzaro, A. Lombardo, V. Palombo, F. Stracka, S. Lindemann, D.M. Robertson, S.H. Duling, B. Gemmler, K. Gorbahn, M. Jager, S. Paradisi, P. Straub, D.M. Bigi, I. Asner, D.M. Fast, J.E. Kouzes, R.T. Morandin, M. Rotondo, M. Ben-Haim, E. Arnaud, N. Burmistrov, L. Kou, E. Perez, A. Stocchi, A. Viaud, B. Domingo, F. Piccinini, F. Manoni, E. Batignani, G. Cervelli, A. Forti, F. Giorgi, M. Lusiani, A. Oberhof, B. Paoloni, E. Neri, N. Walsh, J. Bevan, A. Bona, M. Walker, C. Weiland, C. Lenz, A. Gonzalez-Sprinberg, G. Faccini, R. Renga, F. Polosa, A. Silvestrini, L. Virto, J. Ciuchini, M. Lubicz, V. Tarantino, C. Wilson, F.F. Carpinelli, M. Huber, T. Mannel, T. Graham, M. Ratcliff, B.N. Santoro, V. Sekula, S. Shougaev, K. Soffer, A. Shimizu, Y. Gambino, P. Mussa, R. Nardecchia, M. Stal, O. Bernabeu, J. Botella, F. Jung, M. Lopez March, N. Martinez Vidal, F. Oyanguren, A. Pich, A. Lozano, M.A.Sanchis Vidal, J. Vives, O. Banerjee, S. Roney, J.M. Petrov, A.A. Flood, K. SuperB Progress Reports - Physics Particle Physics - Experiment SuperB is a high luminosity e+e- collider that will be able to indirectly probe new physics at energy scales far beyond the reach of any man made accelerator planned or in existence. Just as detailed understanding of the Standard Model of particle physics was developed from stringent constraints imposed by flavour changing processes between quarks, the detailed structure of any new physics is severely constrained by flavour processes. In order to elucidate this structure it is necessary to perform a number of complementary studies of a set of golden channels. With these measurements in hand, the pattern of deviations from the Standard Model behavior can be used as a test of the structure of new physics. If new physics is found at the LHC, then the many golden measurements from SuperB will help decode the subtle nature of the new physics. However if no new particles are found at the LHC, SuperB will be able to search for new physics at energy scales up to 10-100 TeV. In either scenario, flavour physics measurements that can be made at SuperB play a pivotal role in understanding the nature of physics beyond the Standard Model. Examples for using the interplay between measurements to discriminate New Physics models are discussed in this document. SuperB is a Super Flavour Factory, in addition to studying large samples of B_{u,d,s}, D and tau decays, SuperB has a broad physics programme that includes spectroscopy both in terms of t he Standard Model and exotica, and precision measurements of sin^2theta_W. In addition to performing CP violation measurements at the Y(4S) and phi(3770), SuperB will test CPT in these systems, and lepton universality in a number of different processes. The multitude of rare decay measurements possible at SuperB can be used to constrain scenarios of physics beyond the Standard Model. ... SuperB is a high luminosity e+e- collider that will be able to indirectly probe new physics at energy scales far beyond the reach of any man made accelerator planned or in existence. Just as detailed understanding of the Standard Model of particle physics was developed from stringent constraints imposed by flavour changing processes between quarks, the detailed structure of any new physics is severely constrained by flavour processes. In order to elucidate this structure it is necessary to perform a number of complementary studies of a set of golden channels. With these measurements in hand, the pattern of deviations from the Standard Model behavior can be used as a test of the structure of new physics. If new physics is found at the LHC, then the many golden measurements from SuperB will help decode the subtle nature of the new physics. However if no new particles are found at the LHC, SuperB will be able to search for new physics at energy scales up to 10-100 TeV. In either scenario, flavour physics measurements that can be made at SuperB play a pivotal role in understanding the nature of physics beyond the Standard Model. Examples for using the interplay between measurements to discriminate New Physics models are discussed in this document. SuperB is a Super Flavour Factory, in addition to studying large samples of B_{u,d,s}, D and tau decays, SuperB has a broad physics programme that includes spectroscopy both in terms of the Standard Model and exotica, and precision measurements of sin^2theta_W. In addition to performing CP violation measurements at the Y(4S) and phi(3770), SuperB will test CPT in these systems, and lepton universality in a number of different processes. The multitude of rare decay measurements possible at SuperB can be used to constrain scenarios of physics beyond the Standard Model. ... info:eu-repo/grantAgreement/EC/FP7/237920 info:eu-repo/semantics/openAccess Education Level info:eu-repo/semantics/article http://cds.cern.ch/record/1284223 2010-08-10 |
spellingShingle | Particle Physics - Experiment O'Leary, B. Matias, J. Ramon, M. Pous, E. De Fazio, F. Palano, A. Eigen, G. Asgeirsson, D. Cheng, C.H. Chivukula, A. Echenard, B. Hitlin, D.G. Porter, F. Rakitin, A. Heinemeyer, S. McElrath, B. Andreassen, R. Meadows, B. Sokoloff, M. Blanke, M. Lesiak, T. Shindou, T. Ronga, F. Baldini, W. Bettoni, D. Calabrese, R. Cibinetto, G. Luppi, E. Rama, M. Bossi, F. Guido, E. Patrignani, C. Tosi, S. Davies, C. Lunghi, E. Haisch, U. Hurth, T. Westhoff, S. Crivellin, A. Hofer, L. Goto, T. Brown, David Nathan Branco, G.C. Zupan, J. Herrero, M. Rodriguez-Sanchez, A. Simi, G. Tackmann, F.J. Biassoni, P. Lazzaro, A. Lombardo, V. Palombo, F. Stracka, S. Lindemann, D.M. Robertson, S.H. Duling, B. Gemmler, K. Gorbahn, M. Jager, S. Paradisi, P. Straub, D.M. Bigi, I. Asner, D.M. Fast, J.E. Kouzes, R.T. Morandin, M. Rotondo, M. Ben-Haim, E. Arnaud, N. Burmistrov, L. Kou, E. Perez, A. Stocchi, A. Viaud, B. Domingo, F. Piccinini, F. Manoni, E. Batignani, G. Cervelli, A. Forti, F. Giorgi, M. Lusiani, A. Oberhof, B. Paoloni, E. Neri, N. Walsh, J. Bevan, A. Bona, M. Walker, C. Weiland, C. Lenz, A. Gonzalez-Sprinberg, G. Faccini, R. Renga, F. Polosa, A. Silvestrini, L. Virto, J. Ciuchini, M. Lubicz, V. Tarantino, C. Wilson, F.F. Carpinelli, M. Huber, T. Mannel, T. Graham, M. Ratcliff, B.N. Santoro, V. Sekula, S. Shougaev, K. Soffer, A. Shimizu, Y. Gambino, P. Mussa, R. Nardecchia, M. Stal, O. Bernabeu, J. Botella, F. Jung, M. Lopez March, N. Martinez Vidal, F. Oyanguren, A. Pich, A. Lozano, M.A.Sanchis Vidal, J. Vives, O. Banerjee, S. Roney, J.M. Petrov, A.A. Flood, K. SuperB Progress Reports - Physics |
title | SuperB Progress Reports - Physics |
title_full | SuperB Progress Reports - Physics |
title_fullStr | SuperB Progress Reports - Physics |
title_full_unstemmed | SuperB Progress Reports - Physics |
title_short | SuperB Progress Reports - Physics |
title_sort | superb progress reports - physics |
topic | Particle Physics - Experiment |
url | http://cds.cern.ch/record/1284223 http://cds.cern.ch/record/1284223 |
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