Isoscaling properties for neutron-rich fragments in highly asymmetric heavy ion collision systems*

Peng 彭, Dan 丹; Ma 马, Chun-Wang 春旺; Qiao 乔, Chun-Yuan 春源; Liu 刘, Xing-Quan 星泉; Wei 魏, Hui-Ling 慧玲

doi:10.1088/1674-1137/ad33bd

Chinese Phys. C

2024

DOI: 10.1088/1674-1137/ad33bd

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Isoscaling properties for neutron-rich fragments in highly asymmetric heavy ion collision systems*

Dan 丹 Peng 彭,

Chun-Wang 春旺 Ma 马,

Chun-Yuan 春源 Qiao 乔

et al.

Abstract: Historically, isoscaling has often been understood and applied under the grand canonical ensemble, assuming that the fragments are produced after the statistical equilibrium state is achieved. However, the influence of the symmetry energy may lead to differences in the neutron and density distribution in neutron-rich nuclei, potentially impacting the isoscaling parameters (usually denoted by $\alpha$ and $\beta$. We study the isoscaling properties for neutron-rich fragments produced in very asymmetric systems … Show more

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Neutron skin and its effects in heavy-ion collisions

Ding,

Fang,

2024

NUCL SCI TECH

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Neutron skin is an exotic phenomenon that occurs in unstable nuclei. In this study, the various effects of the neutron skin on nuclear reactions and their relationship with the properties of nuclear structures are reviewed. Based on numerous studies using theoretical models, strong correlations have been found between the neutron skin thickness and the neutron removal cross section, neutron/proton yield ratio, $$\hbox {t}/{^3\hbox {He}}$$ t / 3 He yield ratio, neutron–proton momentum difference, isoscaling parameter, photon production, reaction cross sections for neutron-induced reactions, charge-changing cross-sectional differences of mirror nuclei, astrophysical S-factor, and other quantities in nuclear reactions induced by neutron-rich nuclei. Moreover, the relationships between the neutron skin thickness and certain properties of the nuclear structure, such as $$\alpha$$ α -cluster formation, $$\alpha$$ α decay, nuclear surface, nuclear temperature, and proton radii difference of mirror nuclei, have also been investigated. Furthermore, it has also been shown that the neutron skin plays a crucial role in relativistic heavy-ion collisions. Experimentally, an unstable nucleus with a neutron skin can be generated by radioactive nuclear beam facilities, and the thickness of the neutron skin can be extracted by measuring the sensitive probes, which further helps impose stringent constraints on the equation of state of asymmetric nuclear matter and the properties of neutron stars.

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Neutron skin and its effects in heavy-ion collisions

Ding,

Fang,

2024

NUCL SCI TECH

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Isoscaling properties for neutron-rich fragments in highly asymmetric heavy ion collision systems*

Cited by 1 publication

References 44 publications

Neutron skin and its effects in heavy-ion collisions

Neutron skin and its effects in heavy-ion collisions

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