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Decay amplitudes to three hadrons from finite-volume matrix elements

Maxwell T. Hansen, Fernando Romero-López, Stephen R. Sharpe

2021Journal of High Energy Physics30 citationsDOIOpen Access PDF

Abstract

A bstract We derive relations between finite-volume matrix elements and infinite-volume decay amplitudes, for processes with three spinless, degenerate and either identical or non-identical particles in the final state. This generalizes the Lellouch-Lüscher relation for two-particle decays and provides a strategy for extracting three-hadron decay amplitudes using lattice QCD. Unlike for two particles, even in the simplest approximation, one must solve integral equations to obtain the physical decay amplitude, a consequence of the nontrivial finite-state interactions. We first derive the result in a simplified theory with three identical particles, and then present the generalizations needed to study phenomenologically relevant three-pion decays. The specific processes we discuss are the CP-violating K → 3 π weak decay, the isospin-breaking η → 3 π QCD transition, and the electromagnetic γ * → 3 π amplitudes that enter the calculation of the hadronic vacuum polarization contribution to muonic g − 2.

Topics & Concepts

PhysicsHadronVacuum polarizationAmplitudeParticle physicsDegenerate energy levelsQuantum chromodynamicsParticle decayQuantum electrodynamicsLattice (music)Elementary particleMatrix (chemical analysis)Scattering amplitudeLattice QCDPolarization (electrochemistry)Lattice field theoryS-matrixQuantum mechanicsQuarkQuark modelSemileptonic decayTheoretical physicsExponential decayMatrix elementMathematical physicsQuantum field theoryQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studiesQuantum and Classical Electrodynamics
Decay amplitudes to three hadrons from finite-volume matrix elements | Litcius