Low energy Lorentz violation from modified dispersion at high energies
Abstract
Many quantum theories of gravity propose Lorentz violating dispersion relations of the form ω = |k|\, f(|k|/M), with recovery of approximate Lorentz invariance at energy scales much below M. We show that a quantum field with this dispersion predicts drastic low energy Lorentz violation in atoms modelled as Unruh-DeWitt detectors, for any f that dips below unity somewhere. As an example, we show that polymer quantization motivated by loop quantum gravity predicts such Lorentz violation below current ion collider rapidities.
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