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Heavy-ion collisions indeed provide a unique opportunity to study the properties of Quantum Chromodynamics (QCD) matter in laboratory experiments. The conditions created in these collisions, such as high temperature and density, can lead to the formation of a de-confined phase of quarks and gluons known as the Quark-Gluon Plasma (QGP). The QGP is a state of matter where quarks and gluons are no longer confined within hadrons but exist as liberated, interacting particles. By studying the properties of the QGP, we aim to understand the fundamental nature of strong interactions and gain insights into the early universe, where similar extreme conditions are believed to have existed.
Heavy-ion collisions indeed provide a unique opportunity to study the properties of Quantum Chromodynamics (QCD) matter in laboratory experiments. The conditions created in these collisions, such as high temperature and density, can lead to the formation of a de-confined phase of quarks and gluons known as the Quark-Gluon Plasma (QGP). The QGP is a state of matter where quarks and gluons are no longer confined within hadrons but exist as liberated, interacting particles. By studying the properties of the QGP, we aim to understand the fundamental nature of strong interactions and gain insights into the early universe, where similar extreme conditions are believed to have existed.
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IJCAI 2024 (2024)
MODERN PHYSICS LETTERS Ano. 07 (2024)
AAAI 2024no. 21 (2024): 23005-23011
AAAI 2024no. 13 (2024): 14422-14430
arxiv(2023)
Physical Review Lettersno. 20 (2023)
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