\begin{document}$ W' $\end{document}, which can induce charged-current (CC) non-standard neutrino interactions (NSIs). The theoretical constraints on the simplified \begin{document}$ W' $\end{document} model and further on the CC NSI parameters \begin{document}$ \widetilde{\epsilon}^{ qq'Y}_{\alpha\beta} $\end{document} from partial wave unitarity and \begin{document}$ W' $\end{document} decays are considered. The sensitivity of the process \begin{document}$ p p \rightarrow W'\rightarrow \ell\nu $\end{document} to the \begin{document}$ W' $\end{document} model at the LHC and high-luminosity (HL) LHC experiments is investigated by estimating the expected constraints on \begin{document}$ \widetilde{\epsilon}^{qq'Y}_{\alpha\beta} $\end{document} (\begin{document}$ \alpha = \beta = e $\end{document} or μ) using a Monte-Carlo (MC) simulation. We find that the interference effect plays an important role, and the LHC can strongly constrain \begin{document}$ \widetilde{\epsilon}^{qq'L}_{\alpha\beta} $\end{document}. Compared with those at the \begin{document}$ 13 \;{\rm TeV} $\end{document} LHC with \begin{document}$ {\cal{L}}=139\;{\rm fb}^{-1} $\end{document}, the expected constraints at the \begin{document}$ 14 \;{\rm TeV} $\end{document} LHC with \begin{document}$ {\cal{L}}=3\;{\rm ab}^{-1} $\end{document} can be strengthened to approximately one order of magnitude."> Charged-current non-standard neutrino interactions at the LHC and HL-LHC -
  • [1]

    V. Barger, D. Marfatia, and K. Whisnant, Int. J. Mod. Phys. E12, 569 (2003)

  • [2]

    M. C. Gonzalez-Garcia and M. Maltoni, Phys. Rept.460, 1 (2008)

  • [3]

    L. Wolfenstein, Phys. Rev. D17, 2369 (1978)

  • [4]

    D. Choudhury, K. Ghosh, and S. Niyogi, Phys. Lett. B784, 248 (2018)

  • [5]

    T. Ohlsson, Rep. Prog. Phys.76, 044201 (2013)

  • [6]

    O. G. Miranda and H. Nunokawa, New J. Phys.17, 095002 (2015)

  • [7]

    Y. Farzan and M. Tortola, Front. in Phys.6, 10 (2018)

  • [8]

    I. Esteban, M. C. Gonzalez-Garcia, M. Maltoniet al.,JHEP08, 180 (2018)[Addendum: JHEP 12, 152 (2020)]

  • [9]

    M. C. Gonzalez-Garcia, M. Maltoni, and J. Salvado, JHEP05, 075 (2011)

  • [10]

    M. C. Gonzalez-Garcia and M. Maltoni, JHEP09, 152 (2013)

  • [11]

    S. Davidson and V. Sanz, Phys. Rev. D84, 113011 (2011)

  • [12]

    A. Friedland, M. L. Graesser, I. M. Shoemakeret al., Phys. Lett. B714, 267 (2012)

  • [13]

    D. Buarque Franzosi, M. T. Frandsen, and I. M. Shoemaker, Phys. Rev. D93, 095001 (2016)

  • [14]

    K. S. Babu, P. S. B. Dev, S. Janaet al., JHEP03, 006 (2020)

  • [15]

    J. Terol-Calvo, M. Tórtola, and A. Vicente, Phys. Rev. D101, 095010 (2020)

  • [16]

    F. J. Escrihuela, M. Tortola, J. W. F. Valleet al., Phys. Rev. D83, 093002 (2011)

  • [17]

    W. Altmannshofer, M. Tammaro, and J. Zupan, JHEP09, 083 (2019)

  • [18]

    C. X. Yue, X. J. Cheng, Y. Q. Wanget al., Nucl. Phys. B982, 115894 (2022)

  • [19]

    S. Davidson, C. Pena-Garay, N. Riuset al., JHEP03, 011 (2003)

  • [20]

    C. Biggio, M. Blennow, and E. Fernández-Martínez, JHEP08, 090 (2009)

  • [21]

    O. Cheung, C. J. Ouseph, and T. Wang, JHEP12, 209 (2019)

  • [22]

    I. Bischer, W. Rodejohann, and X. J. Xu, JHEP10, 096 (2018)

  • [23]

    P. Coloma, M. C. Gonzalez-Garcia, and M. Maltoni, JHEP01, 114 (2021)

  • [24]

    S. Pandey, S. Karmakar, and S. Rakshit, JHEP11, 046 (2019)

  • [25]

    D. Liu, C. Sun, and J. Gao, JHEP02, 033 (2021)

  • [26]

    K. S. Babu, D. Gonçalves, S. Janaet al., Phys. Lett. B815, 136131 (2021)

  • [27]

    R. N. Mohapatra and J. C. Pati, Phys. Rev. D11, 566 (1975)

  • [28]

    G. Senjanovic and R. N. Mohapatra, Phys. Rev. D12, 1502 (1975)

  • [29]

    N. Arkani-Hamed, A. G. Cohen, E. Katzet al., JHEP07, 034 (2002)

  • [30]

    T. Appelquist, H. C. Cheng, and B. A. Dobrescu, Phys. Rev. D64, 035002 (2001)

  • [31]

    K. Agashe, S. Gopalakrishna, T. Hanet al., Phys. Rev. D80, 075007 (2009)

  • [32]

    G. Aadet al. (ATLAS), Eur. Phys. J. C72, 2241 (2012)

  • [33]

    S. Chatrchyanet al. (CMS), JHEP08, 023 (2012)

  • [34]

    G. Aadet al. (ATLAS), JHEP09, 037 (2014)

  • [35]

    V. Khachatryanet al. (CMS), Phys. Rev. D91, 092005 (2015)

  • [36]

    M. Aaboudet al. (ATLAS), Eur. Phys. J. C78, 401 (2018)

  • [37]

    V. Khachatryanet al. (CMS), Phys. Lett. B770, 278 (2017)

  • [38]

    A. M. Sirunyanet al. (CMS), JHEP06, 128 (2018)

  • [39]

    G. Aadet al. (ATLAS), Phys. Rev. D100, 052013 (2019)

  • [40]

    P. Osland, A. A. Pankov, and I. A. Serenkova, Phys. Rev. D103, 053009 (2021)

  • [41]

    J. Fiaschi, F. Giuli, F. Hautmannet al., JHEP02, 179 (2022)

  • [42]

    R. Calabrese, A. D. Iorio, D. F. G. Fiorilloet al., Phys. Rev. D104, 055006 (2021)

  • [43]

    P. Coloma, I. Esteban, M. C. Gonzalez-Garciaet al.,JHEP02, 023 (2020), [Addendum: JHEP 12, 071 (2020)].

  • [44]

    P. S. B. Dev, K. S. Badu, P. B. Dentonet al., SciPost Phys. Proc.2, 001 (2019)

  • [45]

    C. Biggio, M. Blennow, and E. Fernández-Martínez, JHEP03, 139 (2009)

  • [46]

    C. Soumya, M. Ghosh, S. K. Rautet al., Phys. Rev. D101, 055009 (2020)

  • [47]

    A. D. Santos,Sensitivity of reactor experiments to nonstandard neutrino interactions in beta decay rates (2020), arXiv:2007.07409

  • [48]

    Z. Sullivan, Phys. Rev. D66, 075011 (2002)

  • [49]

    S. Gopalakrishna, T. Han, I. Lewiset al., Phys. Rev. D82, 115020 (2010)

  • [50]

    B. Fuks and R. Ruiz, JHEP05, 032 (2017)

  • [51]

    G. C. Branco and M. N. Rebelo, PoS Corfu2012, 024 (2013)

  • [52]

    K. S. Babu, J. Julio, and Y. Zhang, Nucl. Phys. B858, 468 (2012)

  • [53]

    M. Jacob and G. C. Wick, Annals Phys.7, 404 (1959)

  • [54]

    U. Baur and D. Zeppenfeld, Phys. Lett. B201, 383 (1988)

  • [55]

    T. Corbett, O. J. P.Éboli, and M. C. Gonzalez-Garcia, Phys. Rev. D91, 035014 (2015)

  • [56]

    Q. Fu, J. C. Yang, C. X. Yueet al., Nucl. Phys. B972, 115543 (2021)

  • [57]

    J. C. Romao and J. P. Silva, Int. J. Mod. Phys. A27, 1230025 (2012)

  • [58]

    LEP,A Combination of preliminary electroweak measurements and constraints on the standard model(2003), arXiv:hep-ex/0312023

  • [59]

    V. Khachatryanet al. (CMS), JHEP08, 119 (2016)

  • [60]

    M. Rauch,Vector-Boson Fusion and Vector-Boson Scattering, arXiv:1610.08420

  • [61]

    D. R. Green, P. Meade, and M. A. Pleier, Rev. Mod. Phys.89, 035008 (2017)

  • [62]

    I. A. Serenkova, P. Osland, and A. A. Pankov, Phys. Rev. D100, 015007 (2019)

  • [63]

    J. Fuentes-Martin, A. Greljo, J. M. Camalichet al., JHEP11, 080 (2020)

  • [64]

    A. Alloul, N. D. Christensen, C. Degrandeet al., Comput. Phys. Commun.185, 2250 (2014)

  • [65]

    N. D. Christensen and C. Duhr, Comput. Phys. Commun.180, 1614 (2009)

  • [66]

    C. Degrande, C. Duhr, B. Fukset al., Comput. Phys. Commun.183, 1201 (2012)

  • [67]

    J. Alwall, R. Frederix, S. Frixioneet al., JHEP07, 079 (2014)

  • [68]

    T. Sjöstrand, S. Ask, J. R. Christiansenet al., Comput. Phys. Commun.191, 159 (2015)

  • [69]

    J. Favereau, C. Delaere, P. Deminet al. (The DELPHES 3), JHEP02, 057 (2014)

  • [70]

    R. D. Ball, V. Bertone, F. Ceruttiet al., Nucl. Phys. B849, 296 (2011)

  • [71]

    R. D. Ballet al., Nucl. Phys. B867, 244 (2013)

  • [72]

    E. Conte, B. Fuks, and G. Serret, Comput. Phys. Commun.184, 222 (2013)

  • [73]

    G. Altarelli, B. Mele, and M. Ruiz-Altaba,Z. Phys. C45, 109 (1989)[Erratum: Z. Phys. C47, 676 (1990)]

  • [74]

    S. Jezequel (ATLAS, CMS), Nucl. Phys. B Proc. Suppl.245, 145 (2013)

  • [75]

    C. Henderson (CMS), SciPost Phys.Proc.111, 8 (2022)

  • [76]

    C. O. Dib, C. S. Kim, K. Wanget al., Phys. Rev. D94, 013005 (2016)

  • [77]

    C. X. Yue and X. J. Cheng, Nucl. Phys. B963, 115280 (2021)

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