Li Yang
- Doctoral Supervisor
- Master Tutor
- Gender:
- Name (English):Yang Li
- Name (Pinyin):Li Yang
- Business Address:C1202 Physical Sciences Bldg.
- Contact Information:96 Jinzhai Rd., Hefei, Anhui, China
- Professional Title:Special Professor
- Alma Mater:Iowa State University
- Teacher College:Physical Sciences
- Discipline:Physics
Contact Information
- ZipCode:
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- Profile
- Research Focus
- Honors & Awards
- Social Affiliations
Yang Li obtained his bachelor's degree from the University of Science and Technology of China (USTC) in 2010 and completed his Ph.D. at Iowa State University in 2015. Following his doctoral studies, he worked as postdocs at Iowa State University, the College of William & Mary, and as a lecturer at the University of Chinese Academy of Sciences. In 2021, he joined USTC as a professor.
Dr. Li's research focuses on non-perturbative quantum chromodynamics (QCD), hadron structure, and computational physics. He was awarded the 2014 Gary McCartor Award from the International Light-Cone Advisory Committee (ILCAC).
For more information about his research and publications, visit his INSPIRE profile: [Yang.Li.2](https://inspirehep.net/authors/1413658).
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Education Background
1.2010.1-2015.1
Iowa State University | Particle and Nuclear Physics | Doctoral degree | Postgraduate (Doctoral)
2.2006.1-2010.1
University of Science and Technology of China | Theoretical Physics | Bachelor's Degree | Undergraduate (Bachelor’s degree)
Positions & Employments
1.2021.1-2022.1
University of Science and Technology of China | Professor
2.2020.1-2021.1
University of Chinese Academy of Sciences | Lecturer
3.2018.1-2021.1
Iowa State University | Visiting Scientist
4.2017.1-2018.1
College of William and Mary | Postdoc
5.2016.1-2017.1
Iowa State University | Postdoc
Courses
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Research Group
1.Name of Research Group:NpQCD Group
Description of Research Group:Quantum Chromodynamics (QCD) is the fundamental theory of strong interactions, describing the interactions between quarks and gluons. At low energy scales, QCD is strongly coupled, leading to significant non-perturbative phenomena such as confinement and chiral symmetry breaking. Non-perturbative calculations in QCD represent one of the most challenging problems in physics, yet they are essential for answering some of the most fundamental questions, such as how quarks and gluons combine to form hadrons and how nuclear forces emerge to bind nucleons. The non-perturbative properties of hadrons, such as protons, are also at the forefront of current and upcoming high-energy experiments, including the Electron-Ion Collider (EIC) and the Super Tau Charm Facility (STCF).
Our team focuses on solving strongly coupled quantum field theories and understanding the structure of hadrons. Our primary goal is to explore how the non-perturbative structure of hadrons arises from quarks and gluons. To address this challenging problem, we employ a combination of theoretical, phenomenological, and computational approaches. One of our preferred methods is the light-front Hamiltonian formalism, in which the structure of hadrons is fully described by wavefunctions defined on the light-front $x^+ = t + z/c$, closely related to the partonic structure of hadrons. Our ultimate aim is to develop a computational framework capable of directly solving for light-front wavefunctions starting from the QCD Hamiltonian.
Team website: http://staff.ustc.edu.cn/~leeyoung1987/NPQCD.html