Speaker
Description
We study the internal structure of the deuteron at the level of its partons using the basis light-front quantization approach. The Hamiltonian is constructed by incorporating the fundamental QCD interactions arising from the six-quarks and six-quarks-gluon Fock components. We examine the deuteron’s electromagnetic form factors, parton distribution functions, and tensor-polarized properties. Additionally, we explore the color structure, including the “hidden color” contribution within the deuteron.
Furthermore, we investigate the deuteron by treating it as a molecular-like system. We derive the light-front wave functions from two Schrödinger-like equations: the light-front holographic QCD equation and the 't Hooft equation, and study the properties of the deuteron.
