Extracting three-body observables from finite-volume quantities

TL;DR

This paper reviews recent theoretical advances in extracting three-hadron scattering and transition amplitudes from finite-volume lattice QCD calculations, addressing key challenges and summarizing formal developments across multiple approaches.

Contribution

It synthesizes recent progress in formal methods for relating finite-volume lattice data to three-particle observables, including large volume expansions, non-relativistic analyses, and relativistic field theory approaches.

Findings

Finite-volume energies expanded in inverse box length $1/L$ with known complications.

Three-particle finite-volume spectrum determined by on-shell amplitudes up to exponential corrections.

Relativistic field theory relates finite-volume spectrum to an intermediate quantity connected to the scattering amplitude.

Abstract

Scattering and transition amplitudes with three-hadron final states play an important role in nuclear and particle physics. However, predicting such quantities using numerical Lattice QCD is very difficult, in part because of the effects of Euclidean time and finite volume. In this review we highlight recent formal developments that work towards overcoming these issues. We organize the presentation into three parts: large volume expansions, non-relativistic nonperturbative analyses, and nonperturbative studies based in relativistic field theory. In the first part we discuss results for ground state energies and matrix elements given by expanding in inverse box length, $1/L$. We describe complications that arise at $\mathcal O(1/L^6)$ and include a table summarizing the results of different calculations. In the second part we summarize three recent non-relativistic non-perturbative studies and highlight the main conclusions of these works. This includes demonstrating that the three-particle finite-volume spectrum is determined, up to exponentially suppressed effects, by on-shell amplitudes, as well as recovering a finite-volume quantization condition for scattering a stable particle off a two-particle bound state. In this part we also highlight recent work concerning a three-particle bound state in a finite volume. In the third and final part, we review recent work based in non-perturbative relativistic field theory. Here the finite-volume spectrum has been related to an intermediate infinite-volume quantity which itself is related via a known integral equation to the relativistic, model-independent three-particle scattering amplitude. We motivate the appearance of the intermediate quantity, explain how it is related to the standard amplitude, and discuss prospects for using the result to constrain three-particle observables.