Heavy Particle Towers and Nonlocal QFT
Abstract
A number of gravitation-motivated theories, as well as theories with new coloured fermions predict heavy particle towers with spectral densities (m2) growing faster than em, a characteristic of nonlocalizable theories. It is shown that if a light scalar, like the Higgs boson, interacts strongly with a heavy scalar particle tower with exponentially rising degeneracy, then the local low-energy theory is equivalent to an effective nonlocal scalar QFT. For energies approaching the nonlocality scale p2NL2, the scalar propagator and scattering amplitudes are modified by nonlocal factors of the form ep2/2NL. The double-Higgs production measurement at the LHC is proposed as a highly sensitive probe of nonlocality at the electroweak scale.
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