Probing minimal 5D extensions of the Standard Model: From LEP to an e+e- linear collider

Alexander Mück, Apostolos Pilaftsis, Reinhold Rückl

    Research output: Contribution to journalArticlepeer-review

    Abstract

    We derive new improved constraints on the compactification scale of minimal 5-dimensional (5D) extensions of the Standard Model (SM) from electroweak and LEP2 data and estimate the reach of an e+e- linear collider such as TESLA. Our analysis is performed within the framework of non-universal 5D models, where some of the gauge and Higgs fields propagate in the extra dimension, while all fermions are localized on a S1/Z2 orbifold fixed point. Carrying out simultaneous multi-parameter fits of the compactification scale and the SM parameters to the data, we obtain lower bounds on this scale in the range between 4 and 6 TeV. These fits also yield the correlation of the compactification scale with the SM Higgs mass. Investigating the prospects at TESLA, we show that the so-called GigaZ option has the potential to improve these bounds by about a factor 2 in almost all 5D models. Furthermore, at the center of mass energy of 800 GeV and with an integrated luminosity of 103 fb-1, linear collider experiments can probe compactification scales up to 20-30 TeV, depending on the control of systematic errors. © 2004 Elsevier B.V. All rights reserved.
    Original languageEnglish
    Pages (from-to)55-75
    Number of pages20
    JournalNUCLEAR PHYSICS B
    Volume687
    Issue number1-2
    DOIs
    Publication statusPublished - 24 May 2004

    Keywords

    • Field theory (Kaluza-Klein theory; in probing minimal 5D extensions of std. model for e+e- linear collider); String theory (brane; in probing minimal 5D extensions of std. model for e+e- linear collider); Linear accelerators (electron-positron colliders; probing minimal 5D extensions of std. model for e+e- linear collider); Field theory (extra dimensions; in probing minimal 5D extensions of std. model for e+e- linear collider); Electroweak theory; Higgs model (in probing minimal 5D extensions of std. model for e+e- linear collider); Electron-positron colliders (linear; probing minimal 5D extensions of std. model for e+e- linear collider); Minimal supersymmetric standard model; Standard model (probing minimal 5D extensions of std. model for e+e- linear collider)

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