Solving the Bars-Green equation for moving mesons in two-dimensional QCD

• Main Authors: Yu Jia, Shuangran Liang, LiuJi Li, Xiaonu Xiong
• Format: Article
• Language: English
• Published: SpringerOpen 2017-11-01
• Series: Journal of High Energy Physics
• Subjects: 1/N Expansion; Field Theories in Lower Dimensions
• Online Access: http://link.springer.com/article/10.1007/JHEP11(2017)151

Abstract The two-dimensional QCD in the large N limit, generally referred to as the ’t Hooft model, is numerically investigated in the axial gauge in a comprehensive manner. The corresponding Bethe-Salpeter equation for a bound qq¯ $$ q\overline{q} $$ pair, originally derived by Bars and Green in 1978, was first numerically tackled by Li and collaborators in late 1980s, yet only for the stationary mesons. In this paper, we make further progress by numerically solving the Bars-Green equation for moving mesons, ranging from the chiral pion to charmonium. By choosing several different quark masses, we computed the corresponding quark condensates, meson spectra and their decay constants for a variety of meson momenta, and found satisfactory agreement with their counterparts obtained using light-cone gauge, thus numerically verifed the gauge and Poincaré invariance of the ’t Hooft model. Moreover, we have explicitly confirmed that, as the meson gets more and more boosted, the large component of the Bars-Green wave function indeed approaches the corresponding ’t Hooft light-cone wave function, while the small component of the wave function rapidly fades away.