The sPHENIX particle detector has unveiled its inaugural research outcomes from the Relativistic Heavy Ion Collider, triumphantly capturing pivotal data on the universe's primordial matter forms. Through gold-ion collision experiments, this study meticulously measured particle counts and energy densities, offering invaluable insights to scientists delving into the characteristics of the Quark-Gluon Plasma (QGP). The sophisticated design of the sPHENIX detector allows for precise tracking of particle trajectories, while its advanced calorimeter significantly enhances measurement precision, revealing that the energy unleashed in the central collision zone surpasses that of the peripheral region by a factor of ten. This monumental breakthrough will empower scientists to delve deeper into the origins of matter, the mechanisms governing strong forces, and the detection of rare phenomena, including the birth of heavy quarks and particle jets.