Litcius/Paper detail

Generalized elastic positivity bounds on interacting massive spin-2 theories

Zi-Yue Wang, Cen Zhang, Shuang-Yong Zhou

2021Journal of High Energy Physics29 citationsDOIOpen Access PDF

Abstract

A bstract We use generalized elastic positivity bounds to constrain the parameter space of multi-field spin-2 effective field theories. These generalized bounds involve inelastic scattering amplitudes between particles with different masses, which contain kinematic singularities even in the t = 0 limit. We apply these bounds to the pseudo-linear spin-2 theory, the cycle spin-2 theory and the line spin-2 theory respectively. For the pseudo-linear theory, we exclude the remaining operators that are unconstrained by the usual elastic positivity bounds, thus excluding all the leading (or highest cutoff) interacting operators in the theory. For the cycle and line theory, our approach also provides new bounds on the Wilson coefficients previously unconstrained, bounding the parameter space in both theories to be a finite region (i.e., every Wilson coefficient being constrained from both sides). To help visualize these finite regions, we sample various cross sections of them and estimate the total volumes.

Topics & Concepts

PhysicsGravitational singularityBounding overwatchParameter spaceScattering amplitudeSpace (punctuation)Mathematical physicsElastic scatteringKinematicsCrossingAmplitudeOperator (biology)Finite setLine (geometry)Field (mathematics)Field theory (psychology)Bound stateConnection (principal bundle)Classical mechanicsEffective field theoryTheoretical physicsScatteringQuantum field theoryMathematical analysisScattering theoryReal linePhase spaceStatistical physicsQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesBlack Holes and Theoretical Physics
Generalized elastic positivity bounds on interacting massive spin-2 theories | Litcius