Nuclear fragments in projectile fragmentation reactions

IF 14.5 2区物理与天体物理 Q1 PHYSICS, NUCLEAR Progress in Particle and Nuclear Physics Pub Date : 2021-11-01 DOI:10.1016/j.ppnp.2021.103911

Chun-Wang Ma , Hui-Ling Wei , Xing-Quan Liu , Jun Su , Hua Zheng , Wei-Ping Lin , Ying-Xun Zhang

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引用次数: 25

Abstract

Theoretical prediction shows that about 9000 nuclei could be bounded, of which the properties will be hot topics in the new nuclear physics era opened by the new third generation of radioactive nuclear beam (RNB) facilities. Projectile fragmentation reactions are important to produce rare nuclei with extreme large $N / Z$ asymmetry even to the drip lines. Variety of key questions in nuclear physics, for example, the nuclear Equation of State, the extreme of nuclides at drip lines, the shell evolution, etc, are hoped to be answered. A review is presented on the topic related to projectile fragmentation reactions, including the historical review of RNB facilities, the characteristics of modern RNB facilities, the particle identification techniques for searching rare isotopes in RNB experiments and benchmark projectile fragmentation reactions. Furthermore, the theory reviews for fragment production predictions are also made, which include the empirical formula, transport models, statistical models, machine learning methods, etc. Some important probes to nuclear properties have also been presented, which are the temperature/thermometer, the isoscaling, the isobaric ratio difference scaling, the neutron-skin thickness, etc.

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弹丸破碎反应中的核碎片

理论预测表明，约有9000个原子核可以被限定，这些原子核的性质将成为第三代放射性核束(RNB)设施开启的新核物理时代的热点。抛射破片反应对于产生具有极大的N/Z不对称的稀有核至关重要。各种核物理中的关键问题，如核状态方程、核素在滴线处的极值、壳演化等，都希望得到解答。综述了弹丸破片反应的研究进展，包括弹丸破片设施的历史回顾、现代弹丸破片设施的特点、弹丸破片实验中寻找稀有同位素的粒子识别技术和弹丸破片反应的基准。此外，本文还对碎片产生预测的理论进行了综述，包括经验公式、传递模型、统计模型、机器学习方法等。还介绍了一些重要的核性质探测方法，包括温度/温度计、等压比差标度、等压比差标度、中子皮厚度等。

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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.

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