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Research into heavy ion collisions reveals insights about quarks and kaons.
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A new method streamlines quantum simulations using fewer resources and qubits.
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A new method helps uphold gauge invariance in quantum simulations, reducing errors.
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A look into jet quenching phenomena in quark-gluon plasma.
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Examining light nuclei helps reveal essential insights into extreme matter behavior.
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Study reveals how expanding media alters parton energy loss in collisions.
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Examining how twin compact stars form and impact millisecond pulsar populations.
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This study investigates how resonances decay into pseudoscalar mesons.
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Analyzing particle behavior using the relaxation time approximation and its implications.
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Learn how the first atomic nuclei shaped our universe.
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Research on jet production reveals insights into quark-gluon plasma behavior.
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New findings challenge the traditional view of atomic nuclei shapes.
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Exploring the unique properties of neutron stars, including chirality and superfluidity.
Shigehiro Yasui, Muneto Nitta, Chihiro Sasaki
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Learn about bound states and their role in understanding particles and forces.
Paul Hoyer
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Scientists reveal new findings on strange particles from proton collisions.
Suraj Prasad, Bhagyarathi Sahoo, Sushanta Tripathy
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Recent NICER findings reveal complexities in neutron star structures and behaviors.
Jia Jie Li, Armen Sedrakian, Mark Alford
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Research sheds light on baryon number and electric charge in high-energy collisions.
Oscar Garcia-Montero, Sören Schlichting
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Exploring the effects of heavy-ion collisions on particle behavior and energy dynamics.
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This study investigates hyperon yields in heavy-ion collisions and their transport mechanisms.
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Scientists investigate the implications of negative effective ranges in particle interactions.
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Quantum computers enhance our understanding of particle interactions and dynamics.
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This study explores quantum computing techniques for analyzing nuclear resonances.
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A new approach offers efficient estimation of vibrational level density in atomic nuclei.
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Research sheds light on chromium-46's unique properties and behavior.
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Examining the interplay of fluids, magnetism, and spin in high-energy environments.
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Research reveals the complexities of carbon ion interactions in cancer therapy.
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An overview of neutron skin and its role in nuclear reactions and astrophysics.
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Scientists refine models to study superheavy elements like Nobelium.
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Research on charge radii helps refine our knowledge of nuclear properties and interactions.
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A deep dive into nucleons, resonances, and their properties.
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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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