Exploring QCD matter in extreme conditions with Machine Learning

IF 14.5 2区物理与天体物理 Q1 PHYSICS, NUCLEAR

Progress in Particle and Nuclear Physics Pub Date : 2023-11-16 DOI:10.1016/j.ppnp.2023.104084

Kai Zhou , Lingxiao Wang , Long-Gang Pang , Shuzhe Shi

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引用次数: 0

Abstract

In recent years, machine learning has emerged as a powerful computational tool and novel problem-solving perspective for physics, offering new avenues for studying strongly interacting QCD matter properties under extreme conditions. This review article aims to provide an overview of the current state of this intersection of fields, focusing on the application of machine learning to theoretical studies in high energy nuclear physics. It covers diverse aspects, including heavy ion collisions, lattice field theory, and neutron stars, and discuss how machine learning can be used to explore and facilitate the physics goals of understanding QCD matter. The review also provides a commonality overview from a methodology perspective, from data-driven perspective to physics-driven perspective. We conclude by discussing the challenges and future prospects of machine learning applications in high energy nuclear physics, also underscoring the importance of incorporating physics priors into the purely data-driven learning toolbox. This review highlights the critical role of machine learning as a valuable computational paradigm for advancing physics exploration in high energy nuclear physics.

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利用机器学习在极端条件下探索QCD物质

近年来，机器学习作为一种强大的计算工具和新的物理问题解决视角出现，为研究极端条件下强相互作用QCD物质特性提供了新的途径。这篇综述文章旨在概述这一交叉领域的现状，重点介绍机器学习在高能核物理理论研究中的应用。它涵盖了多个方面，包括重离子碰撞、晶格场理论和中子星，并讨论了如何使用机器学习来探索和促进理解QCD物质的物理目标。该综述还从方法论的角度，从数据驱动的角度到物理驱动的角度，对共性进行了概述。最后，我们讨论了机器学习在高能核物理中应用的挑战和未来前景，并强调了将物理先验纳入纯数据驱动学习工具箱的重要性。这篇综述强调了机器学习作为一种有价值的计算范式在推进高能核物理物理的物理探索中的关键作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Progress in Particle and Nuclear Physics 物理-物理：核物理

CiteScore

24.50

自引率

3.10%

发文量

审稿时长

72 days

期刊介绍： Taking the format of four issues per year, the journal Progress in Particle and Nuclear Physics aims to discuss new developments in the field at a level suitable for the general nuclear and particle physicist and, in greater technical depth, to explore the most important advances in these areas. Most of the articles will be in one of the fields of nuclear physics, hadron physics, heavy ion physics, particle physics, as well as astrophysics and cosmology. A particular effort is made to treat topics of an interface type for which both particle and nuclear physics are important. Related topics such as detector physics, accelerator physics or the application of nuclear physics in the medical and archaeological fields will also be treated from time to time.