Professor | Shanxi University | China
Mr. Xin-Jian Wen is a distinguished physicist renowned for his extensive contributions to Quantum Chromodynamics (QCD) and theoretical particle physics. His research is deeply rooted in exploring the properties of strongly interacting matter, the mechanisms underlying the QCD diagram transitions, and the behavior of strange quark matter in strong magnetic fields. Over the years, Mr. Xin-Jian Wen has built an influential academic profile through his pioneering studies on QCD diagram modeling, quark matter stability, and high-density nuclear matter, shaping global understanding in the field of QCD diagram phenomenology. His scholarly endeavors have led to numerous high-impact publications in leading journals such as Physical Review D, Physical Review C, and Journal of Physics G. Collaborating with eminent physicists from institutions including the University of Texas at El Paso and the Institute of High Energy Physics, he has advanced the precision of QCD diagram simulations and theoretical frameworks for quark-gluon interactions. His studies on the stability of strange quark matter and compact star structure through QCD diagram analyses have been particularly influential in connecting quantum field theory with astrophysical applications. Through sustained dedication, Mr. Xin-Jian Wen has become an integral contributor to theoretical high-energy physics, enriching the field of QCD diagram research and its broader implications in particle astrophysics. His approach integrates rigorous computational models with analytical perspectives, providing insights into QCD diagram transitions, nuclear phase structures, and the dynamics of matter under extreme conditions. His research continues to inspire advancements in QCD diagram studies, impacting both fundamental science and applied physics. With consistent academic productivity, strong collaborative networks, and impactful contributions to QCD diagram development, Mr. Xin-Jian Wen stands as a leading figure in experimental and theoretical high-energy studies. Scopus profile of 568 Citations, 44 Documents, 11 h-index.
Profiles: Scopus | ORCID
Featured Publications
1. Measuring the characterization of AFBR-S4N44P164M SiPM array at low temperatures for CEνNS detection. (2025). Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
2. Quark–hadron deconfinement at zero temperature in a strong magnetic field. (2025). European Physical Journal Plus.
3. Stability analysis of magnetized quark matter in Tsallis statistics. (2025). Universe.
4. Deconfinement of magnetized quark matter in a quasiparticle description. (2025). International Journal of Modern Physics A.