π¨βπ«Xiaojun Bao stands as a distinguished academic and researcher in the domain of Nuclear physics . Holding a Phd in Lanzhou University his professional journey exemplifies dedication and expertise. π
πΒ Professional Profiles:
Educational Background π
His educational journey has been a testament to my passion for the field of physics and continuous pursuit of knowledge:
- Bachelor of Science in Physics
School of Physics and Electronic Engineering, Northwest Normal University, Lanzhou, China (2004.09 – 2008.06)
Core Courses: Quantum Mechanics, Thermodynamics and Statistical Physics, Electrodynamics, Mathematical Methods of Physics, among others.
- PhD Student in Particle Physics and Nuclear Physics
School of Nuclear Science and Technology, Lanzhou University, Lanzhou, China (2011.09 – 2016.06)
Specialized Courses: Group Theory, Quantum Field Theory, Advanced Quantum Mechanics, Nuclear Physics, and more.
Professional Experience πΌ
- Physics Teacher
Senior High School (2008.08 – 2011.07)
During this tenure, He had the invaluable opportunity to impart his knowledge and passion for physics to high school students.
Research Focus π¬
- Theoretical Study on the Mechanism of Synthesis of Super heavy Nuclei
- Theoretical Study on the Mechanism of Decay of Super heavy Nuclei
Attempts to produce new americium isotopes near N=126 Paper Published in 2022Β
Optimal condition for the production of heavy and superheavy neutron-rich isotopes with multinucleon transfer reaction Paper Published in 2022
Improvement of evaporation residual cross sections for superheavy nuclei using a neural network method Paper Published in 2022
Theoretical calculations for the capture cross section of the formation of heavy and superheavy nuclei Paper Published in 2023
Effect of deformation dependence and mirror nucleus corrections energy on multinucleon transfer reaction cross sections Paper Published in 2023
Possibility to synthesize Z=120 superheavy nuclei with Z>20 projectiles Paper Published in 2023
Exploring the optimal way to produce Z=100-106 neutron-rich nuclei Paper Published in 2023
Effect of octupole deformation of fragments on mass-asymmetric yields of fission of actinide nuclei Paper Published in 2023
Systematics of Coulomb barriers deduced from experimental capture cross sections and then used to predict the capture cross sections Paper Published in 2023
Bayesian evaluation of energy dependent neutron induced fission yields Paper Published in 2023
Xiaojun Bao ‘s academic and professional journey reflects my dedication to theoretical physics, particularly in understanding the complexities surrounding Super heavy Nuclei synthesis and decay mechanisms.