High Energy Nuclear Physics

High energy nuclear physics studies about the behavior of nuclear matter in energy regimes. The most primary focus of this field is the study of heavy ion collisions and as compared to the lower atomic mass of atoms in other particle accelerators. At the very sufficient collision energies there are many of these types of collisions which is mainly theorized to produce the quark -gluon plasma. Traditional nuclear physics has been only devoted to study about the nuclei which are gently carried out. Using the high energy beams of heavy nuclei ions we can create states of nuclear matter that are very far removed from the ground state. At the very sufficient high densities and temperatures, the neutrons and the protons should melt into their constituent quarks and gluons. In the very high energy collisions of heavy nuclei the quarks and gluons are released from their hadronic bounds and forms a new state of matter which is generally called as Quark-gluon plasma.

  • High Energy Physics
  • Radioactivity
  • Theoretical Nuclear Physics
  • Theoretical Particle Physics
  • Subatomic Physics
  • Collider Physics
  • Viscous Hydrodynamics

Related Conference of High Energy Nuclear Physics

Nov 08-09, 2017

2nd International Conference on Atomic and Nuclear Physics

Las Vegas, Nevada, USA
November 13-15, 2017

2nd International Conference on Astrophysics and Particle Physics

San Antonio, Texas, USA
December 11-12, 2017

3rd International Conference on High Energy Physics

Sept 17-18, 2018

Material Physics 2018

Vancouver, Canada
September 17-18, 2018

4th International Conference on Physics

Berlin, Germany

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