Abstract
We present a novel class of composite Higgs models in which the top and gauge partners responsible for cutting off the Higgs quadratic divergences form a continuum. The continuum states are characterized by their spectral densities, which should have a Finite gap for realistic models. We present a concrete example based on a warped extra dimension with a linear dilaton, where this finite gap appears naturally. We derive the spectral densities in this model and calculate the full Higgs potential for a phenomenologically viable benchmark point, with percent level tuning. The continuum top and gauge partners in this model evade all resonance searches at the LHC and yield qualitatively different collider signals.
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CITATION STYLE
Csáki, C., Lee, G., Lee, S. J., Lombardo, S., & Telem, O. (2019). Continuum naturalness. Journal of High Energy Physics, 2019(3). https://doi.org/10.1007/JHEP03(2019)142
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