Bootstrapping the Chiral-Gravitational Anomaly
Abstract
We analyze causality and unitarity constraints in graviton scattering amplitudes, aiming to establish new bounds on theories with U(1)-gravitational anomalies, such as axion models or strongly-coupled gauge theories. For this purpose, we show the necessity of coupling these theories to gravity. We obtain a universal scale caus at which states with J≥ 4 must appear in the theory. We show that this scale can lie below the quantum gravity scale. For axion models, we get causMP fa where fa is the axion decay constant. In strongly-coupled gauge theories in the large-Nc limit, the presence of glueballs allows to evade these bounds, provided the number of fermions NF Nc and the 'tHooft coupling is not large. Nevertheless, for models that have a holographic 5D dual (large 'tHooft coupling), caus emerges as a new cutoff scale, unless certain conditions on the parameters of the 5D models are satisfied.
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