High Energy Nuclear and Particle Physics
A section of Universe (ISSN 2218-1997).
Section Information
High-energy physics aims to unravel the processes that occur during collisions of nucleii or particles at ultra-relativistic energies. High-energy particle physics addresses the most fundamental questions regarding elementary particles, the basic building blocks of our universe, and their interactions. The goal of high-energy nuclear physics is to understand the properties of nuclear matter created in ultra-relativistic nuclear collisions. In such a collision, the so-called strongly interacting Quark Gluon Plasma (sQGP) was created, which filled the universe in the first microsecond of its existence.
The section "High Energy Nuclear and Particle Physics" publishes research focused on both of these topics, their intersections, and related subjects. The latest findings in high-energy collider and non-collider experiments, as well as theory and phenomenology results discussing related phenomena, are particularly welcome.
Editorial Board
Special Issues
Following special issues within this section are currently open for submissions:
- Exploring Quark Matter under Extreme Scenarios of Temperature and Density (Deadline: 30 April 2024)
- Universe: Feature Papers 2023—High Energy Nuclear and Particle Physics (Deadline: 30 April 2024)
- Heavy Flavor Physics and Perturbative Quantum Chromodynamics Calculation (Deadline: 30 April 2024)
- Neutrinos across Different Energy Scales (Deadline: 30 June 2024)
- Studies of Hadron Spectroscopy at the future Electron-Hadron and Electron-Ion Colliders (Deadline: 31 August 2024)
- Neutrino Insights: Peering into the Subatomic Universe (Deadline: 15 September 2024)
- Neutrino Masses and Oscillations (Deadline: 30 September 2024)
- Ultra-High-Energy Cosmic Rays (Deadline: 30 September 2024)
- Search for New Physics at the LHC and Future Colliders (Deadline: 31 October 2024)
- Jet and Heavy Flavor Production (Deadline: 31 October 2024)