Latest Articles for Quark-gluon Plasma

Research into QGP reveals key interactions of quarks and gluons.

Examining how magnetic fields and rotation influence charged particle radiation.

Studying sound speed in quark-gluon plasma reveals insights about the early universe.

Scientists study dark photons through high-energy particle collisions for clues about dark matter.

Discover how ALICE experiments deepen our knowledge of the universe.

Research sheds light on charge behavior in heavy-ion collisions and Quark Gluon Plasma.

Scientists study heavy-ion collisions to understand quark-gluon plasma and particle behavior.

Scientists study heavy-ion collisions to learn about extreme states of matter.

Exploring the significance of heavy flavor production and charmonia in particle collisions.

Examining charm quarks helps reveal the nature of matter in heavy-ion collisions.

Investigating bottomonium to reveal secrets of quark-gluon plasma dynamics.

A look into how temperature affects quark behavior in Quantum Chromodynamics.

Studying top quark pairs provides insights into early universe conditions.

Examining balance functions reveals complexities in particle behavior and interactions.

Scientists apply deep learning to predict outcomes of heavy-ion collisions.

A look into the complex interplay of spin and fluid dynamics in particle collisions.

Exciting developments in particle physics await with Run 5 and the FCC.

This article explores how fluids behave in magnetic fields, revealing cosmic secrets.

Examining how partons and jets lose energy in quark-gluon plasma.

Exploring heavy quarks and their impact on understanding the universe's origins.

This article examines how energy affects the shapes of atomic nuclei.

Quarkonium offers insights into fundamental physics through its production in particle collisions.

Exploring the effects of chirality imbalance using quantum computing.

A look into the Quark Gluon Plasma and its fascinating properties.

Heavy-flavor particles shed light on conditions after the Big Bang.

Heavy-ion collisions reveal secrets of quark-gluon plasma and the universe's beginnings.

Scientists study jet quenching to understand the early universe's conditions.

Discover how heavy-ion collisions mimic the early universe and reveal quark-gluon plasma.

Discover how jet drift reveals the mysteries of quark-gluon plasma in physics.

Discover the role of hadronic resonances in high-energy particle collisions.

Discover how heavy quarks behave in extreme conditions of particle collisions.

Dive into the study of jets and their role in understanding the universe.

Studying QGP reveals secrets of the early universe.

Dive into the fascinating world of the Chiral Magnetic Effect in particle physics.

Colliding heavy ions reveals secrets of early universe and exotic matter.

Discover how baryon number and electric charge interact in nuclear matter.

Researchers reveal insights from high-energy particle collisions.

Researchers analyze particle distributions to learn about the early universe's matter.

Discover how quarkonia reveal insights into quark-gluon plasma phenomena.

Uncovering the secrets of quark-gluon plasma through dilepton studies.