Hybrid Renormalization for Baryon Distribution Amplitudes from Lattice QCD in LaMET

Abstract

In our recent work [1] on lattice QCD calculation of the baryon leading-twist LCDAs within the framework of LaMET, a novel hybrid renormalization scheme is implemented for octet baryon quasi-DAs, yielding reliable results across both perturbative and non-perturbative regions. The numerical simulations are performed using CLQCD ensembles with Nf = 2+1 stout-smeared clover fermions and a Symanzik-improved gauge action. Calculations are carried out at three lattice spacings, a = 0.052, 0.077, 0.105 fm. After renormalization, the linear divergences inherent in quasi-DAs are effectively removed, leading to smooth and well-behaved continuum coordinate-space distributions. These results demonstrate the viability of hybrid renormalization frameworks for light-baryon quasi-DAs and provide a robust foundation for future LaMET-based determinations of baryon LCDAs.