# Resonance Scattering on the Lattice with Non-Zero Total Momentum

**Authors:** Steven Gottlieb, K. Rummukainen (Indiana University)

arXiv: hep-lat/9509088 · 2009-10-28

## TL;DR

This paper extends Luescher's method to analyze resonance scattering in lattice simulations with non-zero total momentum, enabling more efficient studies of resonances in smaller volumes.

## Contribution

It introduces a generalized approach for resonance scattering analysis on the lattice with non-zero total momentum, improving efficiency over previous methods.

## Key findings

- Method successfully applied to a 3+1D spin model
- Excellent agreement with zero momentum scattering results
- Resonance properties observable in smaller volumes

## Abstract

Most hadronic particles are resonances: for example, the rho meson appears as a resonance in the elastic scattering of two pions. A method by Luescher enables one to measure the properties of the resonance particles from finite lattices. We present here a more general method which includes scattering processes where the total momentum of the particles is non-zero. The main advantage is that the resonance scattering can be observed in a considerably smaller spatial volume. We test the method with a simple 3+1 dimensional spin model, and find excellent agreement between the zero momentum and the non-zero momentum scattering sectors.

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Source: https://tomesphere.com/paper/hep-lat/9509088