Standard model theory for the FCC-ee Tera-Z stage: report on the Mini Workshop Precision EW and QCD Calculations for the FCC Studies : Methods and Tools, 12–13 January 2018, CERN, Geneva

The future 100-km circular collider FCC at CERN is planned to operate in one of its modes as an electron-positron FCC-ee machine. We give an overview of the theoretical status compared to the experimental demands of one of four foreseen FCC-ee operating stages, which is Z-boson resonance energy phys...

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Autores principales: Blondel, A., Gluza, J., Jadach, S., Janot, P., Riemann, T., Akhundov, A., Arbuzov, A., Boels, R., Bondarenko, S., Borowka, S., Carloni Calame, C.M., Dubovyk, I., Dydyshka, Ya., Flieger, W., Freitas, A., Grzanka, K., Hahn, T., Huber, T., Kalinovskaya, L., Lee, R., Marquard, P., Montagna, G., Nicrosini, O., Papadopoulos, C.G., Piccinini, F., Pittau, R., Płaczek, W., Prausa, M., Riemann, S., Rodrigo, G., Sadykov, R., Skrzypek, M., Stöckinger, D., Usovitsch, J., Ward, B.F.L., Weinzierl, S., Yang, G., Yost, S.A.
Lenguaje:eng
Publicado: CERN 2019
Materias:
hep-ph
Particle Physics - Phenomenology
Acceso en línea:https://dx.doi.org/10.23731/CYRM-2019-003
http://cds.cern.ch/record/2637588
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author Blondel, A.
Gluza, J.
Jadach, S.
Janot, P.
Riemann, T.
Akhundov, A.
Arbuzov, A.
Boels, R.
Bondarenko, S.
Borowka, S.
Carloni Calame, C.M.
Dubovyk, I.
Dydyshka, Ya.
Flieger, W.
Freitas, A.
Grzanka, K.
Hahn, T.
Huber, T.
Kalinovskaya, L.
Lee, R.
Marquard, P.
Montagna, G.
Nicrosini, O.
Papadopoulos, C.G.
Piccinini, F.
Pittau, R.
Płaczek, W.
Prausa, M.
Riemann, S.
Rodrigo, G.
Sadykov, R.
Skrzypek, M.
Stöckinger, D.
Usovitsch, J.
Ward, B.F.L.
Weinzierl, S.
Yang, G.
Yost, S.A.
author_facet Blondel, A.
Gluza, J.
Jadach, S.
Janot, P.
Riemann, T.
Akhundov, A.
Arbuzov, A.
Boels, R.
Bondarenko, S.
Borowka, S.
Carloni Calame, C.M.
Dubovyk, I.
Dydyshka, Ya.
Flieger, W.
Freitas, A.
Grzanka, K.
Hahn, T.
Huber, T.
Kalinovskaya, L.
Lee, R.
Marquard, P.
Montagna, G.
Nicrosini, O.
Papadopoulos, C.G.
Piccinini, F.
Pittau, R.
Płaczek, W.
Prausa, M.
Riemann, S.
Rodrigo, G.
Sadykov, R.
Skrzypek, M.
Stöckinger, D.
Usovitsch, J.
Ward, B.F.L.
Weinzierl, S.
Yang, G.
Yost, S.A.
author_sort Blondel, A.
collection CERN
description The future 100-km circular collider FCC at CERN is planned to operate in one of its modes as an electron-positron FCC-ee machine. We give an overview of the theoretical status compared to the experimental demands of one of four foreseen FCC-ee operating stages, which is Z-boson resonance energy physics, FCC-ee Tera-Z stage for short. The FCC-ee Tera-Z will deliver the highest integrated luminosities as well as very small systematic errors for a study the Standard Model (SM) with unprecedented precision. In fact, the FCC-ee Tera-Z will allow to study at least one more quantum field theoretical perturbative order compared to the LEP/SLC precision. The real problem is that the present precision of theoretical calculations of the various observables within the SM does not match that of the anticipated experimental measurements. The bottle-neck problems are specified. In particular, the issues of precise QED unfolding and of the correct calculation of SM pseudo-observables are critically reviewed. In an Executive Summary we specify which basic theoretical calculations are needed to meet the strong experimental expectations at the FCC-ee Tera-Z. Several methods, techniques and tools needed for higher order multi-loop calculations are presented. By inspection of the Z-boson partial and total decay widths analysis, arguments are given that at the beginning of operation of the FCC-ee Tera-Z, the theory predictions may be tuned to be precise enough not to limit the physics interpretation of the measurements. This statement is based on the anticipated progress in analytical and numerical calculations of multi-loop and multi-scale Feynman integrals and on the completion of two-loop electroweak radiative corrections to the SM pseudo-observables this year. However, the above statement is conditional as the theoretical issues demand a very dedicated and focused investment by the community.
id cern-2637588
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2019
publisher CERN
record_format invenio
spelling cern-26375882023-06-29T04:28:33Zdoi:10.23731/CYRM-2019-003http://cds.cern.ch/record/2637588engBlondel, A.Gluza, J.Jadach, S.Janot, P.Riemann, T.Akhundov, A.Arbuzov, A.Boels, R.Bondarenko, S.Borowka, S.Carloni Calame, C.M.Dubovyk, I.Dydyshka, Ya.Flieger, W.Freitas, A.Grzanka, K.Hahn, T.Huber, T.Kalinovskaya, L.Lee, R.Marquard, P.Montagna, G.Nicrosini, O.Papadopoulos, C.G.Piccinini, F.Pittau, R.Płaczek, W.Prausa, M.Riemann, S.Rodrigo, G.Sadykov, R.Skrzypek, M.Stöckinger, D.Usovitsch, J.Ward, B.F.L.Weinzierl, S.Yang, G.Yost, S.A.Standard model theory for the FCC-ee Tera-Z stage: report on the Mini Workshop Precision EW and QCD Calculations for the FCC Studies : Methods and Tools, 12–13 January 2018, CERN, Genevahep-phParticle Physics - PhenomenologyThe future 100-km circular collider FCC at CERN is planned to operate in one of its modes as an electron-positron FCC-ee machine. We give an overview of the theoretical status compared to the experimental demands of one of four foreseen FCC-ee operating stages, which is Z-boson resonance energy physics, FCC-ee Tera-Z stage for short. The FCC-ee Tera-Z will deliver the highest integrated luminosities as well as very small systematic errors for a study the Standard Model (SM) with unprecedented precision. In fact, the FCC-ee Tera-Z will allow to study at least one more quantum field theoretical perturbative order compared to the LEP/SLC precision. The real problem is that the present precision of theoretical calculations of the various observables within the SM does not match that of the anticipated experimental measurements. The bottle-neck problems are specified. In particular, the issues of precise QED unfolding and of the correct calculation of SM pseudo-observables are critically reviewed. In an Executive Summary we specify which basic theoretical calculations are needed to meet the strong experimental expectations at the FCC-ee Tera-Z. Several methods, techniques and tools needed for higher order multi-loop calculations are presented. By inspection of the Z-boson partial and total decay widths analysis, arguments are given that at the beginning of operation of the FCC-ee Tera-Z, the theory predictions may be tuned to be precise enough not to limit the physics interpretation of the measurements. This statement is based on the anticipated progress in analytical and numerical calculations of multi-loop and multi-scale Feynman integrals and on the completion of two-loop electroweak radiative corrections to the SM pseudo-observables this year. However, the above statement is conditional as the theoretical issues demand a very dedicated and focused investment by the community.CERNarXiv:1809.01830CERN-2019-003BU-HEPP-18-04CERN-TH-2018-145IFJ-PAN-IV-2018-09KW 18-003MITP/18-052MPP-2018-143SI-HEP-2018-21oai:cds.cern.ch:26375882019
spellingShingle hep-ph
Particle Physics - Phenomenology
Blondel, A.
Gluza, J.
Jadach, S.
Janot, P.
Riemann, T.
Akhundov, A.
Arbuzov, A.
Boels, R.
Bondarenko, S.
Borowka, S.
Carloni Calame, C.M.
Dubovyk, I.
Dydyshka, Ya.
Flieger, W.
Freitas, A.
Grzanka, K.
Hahn, T.
Huber, T.
Kalinovskaya, L.
Lee, R.
Marquard, P.
Montagna, G.
Nicrosini, O.
Papadopoulos, C.G.
Piccinini, F.
Pittau, R.
Płaczek, W.
Prausa, M.
Riemann, S.
Rodrigo, G.
Sadykov, R.
Skrzypek, M.
Stöckinger, D.
Usovitsch, J.
Ward, B.F.L.
Weinzierl, S.
Yang, G.
Yost, S.A.
Standard model theory for the FCC-ee Tera-Z stage: report on the Mini Workshop Precision EW and QCD Calculations for the FCC Studies : Methods and Tools, 12–13 January 2018, CERN, Geneva
title Standard model theory for the FCC-ee Tera-Z stage: report on the Mini Workshop Precision EW and QCD Calculations for the FCC Studies : Methods and Tools, 12–13 January 2018, CERN, Geneva
title_full Standard model theory for the FCC-ee Tera-Z stage: report on the Mini Workshop Precision EW and QCD Calculations for the FCC Studies : Methods and Tools, 12–13 January 2018, CERN, Geneva
title_fullStr Standard model theory for the FCC-ee Tera-Z stage: report on the Mini Workshop Precision EW and QCD Calculations for the FCC Studies : Methods and Tools, 12–13 January 2018, CERN, Geneva
title_full_unstemmed Standard model theory for the FCC-ee Tera-Z stage: report on the Mini Workshop Precision EW and QCD Calculations for the FCC Studies : Methods and Tools, 12–13 January 2018, CERN, Geneva
title_short Standard model theory for the FCC-ee Tera-Z stage: report on the Mini Workshop Precision EW and QCD Calculations for the FCC Studies : Methods and Tools, 12–13 January 2018, CERN, Geneva
title_sort standard model theory for the fcc-ee tera-z stage: report on the mini workshop precision ew and qcd calculations for the fcc studies : methods and tools, 12–13 january 2018, cern, geneva
topic hep-ph
Particle Physics - Phenomenology
url https://dx.doi.org/10.23731/CYRM-2019-003
http://cds.cern.ch/record/2637588
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