Hadron Spectra, Decays and Scattering Properties within Basis Light Front Quantization
James P. Vary, Lekha Adhikari, Guangyao Chen, Shaoyang Jia, and Meijian Li, Yang Li, Pieter Maris, Wenyang Qian, John R., Spence, Shuo Tang, Kirill Tuchin, Anji Yu, Xingbo Zhao
TL;DR
This paper reviews recent advances in calculating electron and hadron properties using Basis Light Front Quantization, highlighting applications to scattering processes and initial studies of glueball states with multigluon sectors.
Contribution
It introduces the application of BLFQ to glueball states with multigluon sectors and discusses future research directions in multi-quark and multi-gluon systems.
Findings
Progress in calculating hadron properties with BLFQ
Application of BLFQ to scattering processes in heavy ion collisions
Initial investigation into glueball states with multigluon sectors
Abstract
We survey recent progress in calculating properties of the electron and hadrons within the Basis Light Front Quantization (BLFQ) approach. We include applications to electromagnetic and strong scattering processes in relativistic heavy ion collisions. We present an initial investigation into the glueball states by applying BLFQ with multigluon sectors, introducing future research possibilities on multi-quark and multi-gluon systems.
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