Featured Discovery

Home > Featured Discovery > Prof. Wang Wei’s Team Published Findings in Physical Review Letters

Prof. Wang Wei’s Team Published Findings in Physical Review Letters

March 08, 2021      Author:

 

Recently, Prof. Wang Wei’s research team from School of Physics and Astronomy SJTU published a research paper titled “Next-to-Next-to-Leading Order Calculation of Quasiparton Distribution Functions” in Physical Review Letters, a top international physics journal.

 

Prof. Wang Wei and his collaborators calculated the quark quasiparton distribution functions at two-loop order, verified the factorization formula of the large-momentum effective theory at the next-to-next-to-leading order (NNLO), and obtained the analytical expression of the matching coefficient of NNLO. Combined with lattice quantum chromodynamics simulations, they obtained the model-independent quasiparton distribution function. These results have important scientific significance for understanding the internal structure of nuclei under the first-principles.

 

Dr. Chen Longbin from Guangzhou University is the first author of the paper. Prof. Wang Wei from SJTU and Assoc. Prof. Zhu Ruilin from Nanjing Normal University (who has conducted post-doctorate research at SJTU) are the co-corresponding authors.

The research is supported by the National Natural Science Foundation of China, Shanghai Key Laboratory, and Key Laboratory of the Ministry of Education. Numerical calculations rely on the Pi2.0 supercomputing platform of the Center for High Performance Computing, SJTU.

 

Author: Wang Wei

Affiliation: School of Physics and Astronomy, SJTU

Translated by Fu Jing

Proofread by Xiao Yangning, Fu Yuhe

 

 

ABSTRACT:

We present the . The nontrivial factorization at this order is established explicitly and the full analytic matching coefficients between the quasidistribution and the light-cone distribution are derived. We demonstrate that the NNLO numerical contributions can improve the behavior of the extracted PDFs sizably. With the unprecedented precision study of nucleon tomography at the planned electron-ion collider, high precision lattice QCD simulations with our NNLO results implemented will enable to test the QCD theory and more precise results on the PDFs of nucleons will be obtained.