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Examining the effects of heavy ion collisions and the glasma on quarks.
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This article examines how heavy quarks interact with glasma in high-energy collisions.
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Exploring jets to understand proton structure through deep-inelastic scattering.
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This study examines how correlation functions reveal system behaviors in response to environmental changes.
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Examining particle behavior in heavy-ion collisions sheds light on the early universe.
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An examination of the fascinating Domain-Wall Skyrmion phase in Quantum Chromodynamics.
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Research sheds light on particle interactions in extreme conditions of heavy-ion collisions.
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Understanding the He-Be reaction is vital for stellar processes and solar neutrinos.
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Exploring theoretical models to analyze properties of two-dimensional materials like graphene.
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This article explores the role of seniority in nuclear interactions and recent findings.
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A look into how fission fragments spin and vibrate during nuclear reactions.
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Learn about rare beta decay processes and their significance in nuclear physics.
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Scientists use gravitational waves to study the equation of state of quark stars.
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Discover recent developments in nuclear masses and fission barriers using the liquid drop model.
Krzysztof Pomorski
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Investigating how magnetars produce and maintain their powerful magnetic fields.
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Study reveals jet modifications in extreme conditions of QGP.
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Quark saturation is key to understanding extreme matter states in physics.
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Understanding how supernovae produce essential heavy elements for the universe.
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Investigating how heavy-flavor jets behave in high-energy nuclear collisions.
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Examining how EEC reveals differences between quark and gluon jets.
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Investigating charm quark behavior for insights into the early universe's transitions.
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A novel approach using PCA improves measurements in particle physics during critical transitions.
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Exploring fluid behaviors influenced by redefined properties in extreme conditions.
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Research highlights the role of neutron stars in generating detectable gravitational waves.
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Research explores how exotic molecules interact with conventional hadrons.
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A simplified overview of three-body scattering and its significance in physics.
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Research on Ru and Zr collisions reveals insights into nuclear properties and particle behavior.
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Examining how scalar fields influence weak interactions in baryon decays.
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Study of chiral effects reveals insights into quark-gluon plasma behavior.
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Research reveals mechanisms behind supernovae, focusing on hadron-quark phase transitions.
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New insights into neutrino interactions reveal key aspects of pion production.
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A look into scalar mesons and their significance in particle physics.
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A look into nucleons, their structure, and the role of mesons.
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Research reveals insights into gluon distributions within hadrons through advanced methods.
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Investigating potential objects between neutron stars and black holes.
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Research explores the properties of a doubly-charmed tetraquark using lattice QCD.
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Research aims to clarify nuclear matter behavior using heavy-ion collision data.
Justin Mohs, Simon Spies, Hannah Elfner
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Research highlights magnetic dipole transitions affecting gamma spectra in nuclear collisions.
N. K. Timofeyuk
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Latin American scientists contribute to understanding particle physics at the EIC.
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