About

In recent years, many experiments have been carried out on the examination of the properties of hadrons (BABAR, CLEO, Belle, DELPHI, CDF, LHCb, RHIC, BESIII, CBM, etc.) and today the construction of new experiments (CEPC in China in 2020, GSI in 2019) Panda experiment and FCC experiment at CERN in 2018) are ongoing. These studies try to explain the structure and mechanism of assembly of the fundamental particles that make up matter in the universe and how the universe we see today was formed. In addition, these studies are also important in terms of understanding the matter-antimatter asymmetry in the universe, black holes, neutron stars, and the large-scale structure of the universe, which are still not fully explained. High-energy physicists aim to obtain basic information about hadrons by taking advantage of their spectroscopic and interaction properties, which they have obtained by examining them theoretically and experimentally.

The results obtained from the experiments carried out in the field of high-energy physics are calculated theoretically using a high-power server and the Mathematica program at Kocaeli University's High Energy Physics Numerical Laboratory.