Latest Articles for Quark-gluon Plasma

New insights into thermal conductivity in quark-gluon plasma and its impact.

Exploring the study of quarks through holographic QCD and its implications for physics.

A look into the unique state of matter formed in extreme conditions.

Recent findings suggest possible QGP conditions in high-energy proton collisions.

This article examines the impact of classical and quantum corrections on jets in QGP.

A look into how particle distribution varies in heavy ion collisions.

Examining how jets behave in quark gluon plasma reveals important properties of nuclear matter.

NA60+ aims to gather data on heavy quarks and quark-gluon plasma.

Researching electric currents from particle collisions in magnetic fields.

Scientists introduce X-SCAPE framework to study jets in small collisions.

Explore how acceleration impacts motion and thermal dynamics in physics.

This study explores elastic and inelastic scattering in quark-gluon plasma.

Researchers study quark-gluon plasma using higher-dimensional gravity models.

Recent findings from the STAR experiment shed light on quark-gluon plasma properties.

Researchers study quark-gluon plasma to reveal secrets of the early universe.

Research investigates unique features of Oxygen-Oxygen collisions and their significance.

Investigating drag force and potential energy in rotating quark-gluon plasma.

An overview of quarks, clusters, and the fascinating states of quark matter.

Research investigates how nuclear shape impacts quark-gluon plasma in heavy-ion collisions.

Exploring photon production dynamics in quark-gluon plasma during heavy-ion collisions.

Researching proton behavior reveals insights into high-energy collisions and matter states.

Investigating the effects of rotation on quark-gluon plasma properties.

Exploring the effects of electric fields on the QCD model and quark-gluon plasma states.

A model reveals insights into energy and charge in heavy ion collisions.

Exploring jet behavior and energy loss in heavy-ion collisions.

Study reveals how heat impacts spin charmed baryons and their states.

A look into the interactions of quarks and gluons and their significance.

Heavy quarks reveal insights into matter behavior during high-energy collisions.

Research on charmed hadrons reveals insights into high-energy nuclear collisions and quark-gluon plasma.

Research on heavy quarks sheds light on the universe's early moments.

A novel framework improves the study of glasma in heavy-ion collisions.

A deep dive into the phases and critical points of Quantum Chromodynamics.

Research reveals important interactions of heavy quarks in high-energy collisions.

Research on heavy ion collisions reveals crucial details about the universe's early moments.

Examining dilepton production reveals insights into quark-gluon plasma behavior.

This study examines shear viscosity in hot, dense fermionic matter under rotation.

Researchers study the behavior of quark-gluon plasma in extreme conditions.

Researchers study particle distributions using normalized factorial moments in high-energy collisions.

Research reveals connections between event shape and particle production in proton collisions.

Learn how jet energy loss reveals secrets about quark-gluon plasma.