S-matrix positivity without Lorentz invariance: a case study

Hui, Lam; Kourkoulou, Ioanna; Nicolis, Alberto; Podo, Alessandro; Zhou, Shengjia

We investigate the analytic structure of scattering amplitudes in theories in which Lorentz invariance is spontaneously broken. We do so by computing and studying the S-matrix for a simple example: a superfluid described by a complex scalar with quartic interactions. The computation is confined to tree-level, for there are no absolutely stable single-particle states, though the lifetime can be made long by lowering the chemical potential.

For the 2 → 2 amplitude in center-of-mass configurations, not only is crossing symmetry violated, there appears a tree level branch cut for unphysical kinematics. Its appearance is a consequence of non-analyticity in the dispersion relation. The branch point defines a new scale in the problem, which scales inversely with the chemical potential. In this example, even derivatives of the forward amplitude are positive while odd derivatives are negative. This pattern can be understood in a general way in the limit of a small chemical potential, or weak Lorentz breaking.

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Also Published In

Title
Journal of High Energy Physics
DOI
https://doi.org/10.1007/JHEP04(2024)145

More About This Work

Published Here
December 4, 2024

Notes

Effective Field Theories, Scattering Amplitudes, Space-Time Symmetries