Report of the Topical Group on Electroweak Precision Physics and Constraining New Physics for Snowmass 2021

Belloni, Alberto; Shepherd, William; Lewis, Ian; Bhattacharya, Saptaparna; Grojean, Christophe; Nedic, Luka; Vryonidou, Eleni; Yumino, Keita; Stupak, John; Kawale, Mayuri; Miralles, Victor; Blondel, Alain; Stolarski, Daniel; Mizuno, Takahiro; Peskin, Michael; List, Jenny; de Blas, Jorge; Xie, Keping; Banerjee, Swagato; Potamianos, Karolos; Tricoli, Alessandro; Du, Yong; Jeans, Daniel; Han, Tao; Roloff, Philipp; Fujii, Keisuke; Gu, Jiayin; Vos, Marcel; Wilson, Graham; Khoda, Elham E; Neubauer, Mark S.; Waits, Connor; Mwewa, Chilufya; Yang, Tianyi; Petti, Roberto; Liang, Zhijun; Tian, Junping; Reuter, Jürgen; d'Enterria, David; Robens, Tania; Dam, Mogens; Beyer, Jakob; Poeschl, Roman; Paranjape, Chaitanya; Ruan, Manqi; Pleier, Marc-André; Zhu, Junjie; Hildreth, Michael; Roney, Michael; Yang, Siqi; Liu, Zhen; Irles, Adrián; Britzger, Daniel; Reina, Laura; Lane, Samuel; Ma, Yang; Apyan, Juan Alcaraz Maestre Aram; Azzurri, Paolo; Zhou, Shuang-Yong; Azartash-Namin, Bianca; Schuy, Alex; Freitas, Ayres; Tenchini, Roberto; Suehara, Taikan; Ruiz, Richard; Narain, Meenakshi; Janot, Patrick; Wu, Yongcheng

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@ARTICLE{Belloni:490372,
      author       = {Belloni, Alberto and Freitas, Ayres and Tian, Junping and
                      Apyan, Juan Alcaraz Maestre Aram and Azartash-Namin, Bianca
                      and Azzurri, Paolo and Banerjee, Swagato and Beyer, Jakob
                      and Bhattacharya, Saptaparna and de Blas, Jorge and Blondel,
                      Alain and Britzger, Daniel and Dam, Mogens and Du, Yong and
                      d'Enterria, David and Fujii, Keisuke and Grojean, Christophe
                      and Gu, Jiayin and Han, Tao and Hildreth, Michael and Irles,
                      Adrián and Janot, Patrick and Jeans, Daniel and Kawale,
                      Mayuri and Khoda, Elham E and Lane, Samuel and Lewis, Ian
                      and Liang, Zhijun and List, Jenny and Liu, Zhen and Ma, Yang
                      and Miralles, Victor and Mizuno, Takahiro and Mwewa,
                      Chilufya and Narain, Meenakshi and Nedic, Luka and Neubauer,
                      Mark S. and Paranjape, Chaitanya and Peskin, Michael and
                      Petti, Roberto and Pleier, Marc-André and Poeschl, Roman
                      and Potamianos, Karolos and Reina, Laura and Reuter, Jürgen
                      and Robens, Tania and Roloff, Philipp and Roney, Michael and
                      Ruan, Manqi and Ruiz, Richard and Schuy, Alex and Shepherd,
                      William and Stolarski, Daniel and Stupak, John and Suehara,
                      Taikan and Tenchini, Roberto and Tricoli, Alessandro and
                      Vryonidou, Eleni and Vos, Marcel and Waits, Connor and
                      Wilson, Graham and Wu, Yongcheng and Xie, Keping and Yang,
                      Siqi and Yang, Tianyi and Yumino, Keita and Zhou,
                      Shuang-Yong and Zhu, Junjie},
      title        = {{R}eport of the {T}opical {G}roup on {E}lectroweak
                      {P}recision {P}hysics and {C}onstraining {N}ew {P}hysics for
                      {S}nowmass 2021},
      reportid     = {PUBDB-2022-07689, arXiv:2209.08078},
      year         = {2022},
      note         = {55 pages; Report of the EF04 topical group for Snowmass
                      2021; v2: few typos corrected and references added},
      abstract     = {The precise measurement of physics observables and the test
                      of their consistency within the standard model (SM) are an
                      invaluable approach, complemented by direct searches for new
                      particles, to determine the existence of physics beyond the
                      standard model (BSM). Studies of massive electroweak gauge
                      bosons (W and Z bosons) are a promising target for indirect
                      BSM searches, since the interactions of photons and gluons
                      are strongly constrained by the unbroken gauge symmetries.
                      They can be divided into two categories: (a) Fermion
                      scattering processes mediated by s- or t-channel W/Z bosons,
                      also known as electroweak precision measurements; and (b)
                      multi-boson processes, which include production of two or
                      more vector bosons in fermion-antifermion annihilation, as
                      well as vector boson scattering (VBS) processes. The latter
                      categories can test modifications of gauge-boson
                      self-interactions, and the sensitivity is typically improved
                      with increased collision energy. This report evaluates the
                      achievable precision of a range of future experiments, which
                      depend on the statistics of the collected data sample, the
                      experimental and theoretical systematic uncertainties, and
                      their correlations. In addition it presents a combined
                      interpretation of these results, together with similar
                      studies in the Higgs and top sector, in the Standard Model
                      effective field theory (SMEFT) framework. This framework
                      provides a model-independent prescription to put generic
                      constraints on new physics and to study and combine large
                      sets of experimental observables, assuming that the new
                      physics scales are significantly higher than the EW scale.},
      keywords     = {new physics (INSPIRE) / electroweak interaction: precision
                      measurement (INSPIRE) / effective field theory (INSPIRE) /
                      CEPC (INSPIRE) / FCC-ee (INSPIRE) / ILC Coll (INSPIRE) /
                      CERN CLIC (INSPIRE) / electron positron: scattering
                      (INSPIRE) / electron positron: colliding beams (INSPIRE) /
                      W: pair production (INSPIRE) / Z0: production (INSPIRE) /
                      Z0: mediation (INSPIRE) / Higgs particle: production
                      (INSPIRE)},
      cin          = {FTX / T / CMS / ATLAS / $Z_ATLAS$ / BELLE},
      cid          = {I:(DE-H253)FTX-20210408 / I:(DE-H253)T-20120731 /
                      I:(DE-H253)CMS-20120731 / I:(DE-H253)ATLAS-20120731 /
                      $I:(DE-H253)Z_ATLAS-20210408$ / I:(DE-H253)BELLE-20210408},
      pnm          = {611 - Fundamental Particles and Forces (POF4-611)},
      pid          = {G:(DE-HGF)POF4-611},
      experiment   = {EXP:(DE-H253)ILC(machine)-20150101 /
                      EXP:(DE-H253)FCC-20190101 / EXP:(DE-H253)MUON-20220801 /
                      EXP:(DE-H253)LHC-Exp-ATLAS-20150101 /
                      EXP:(DE-H253)LHC-Exp-CMS-20150101 /
                      EXP:(DE-H253)BELLE-20150101},
      typ          = {PUB:(DE-HGF)25},
      eprint       = {2209.08078},
      howpublished = {arXiv:2209.08078},
      archivePrefix = {arXiv},
      SLACcitation = {$\%\%CITATION$ = $arXiv:2209.08078;\%\%$},
      url          = {https://bib-pubdb1.desy.de/record/490372},
}

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