Super-heavy nuclei with Z = 118 and their mass and charge spectrum of fission fragments

Maslyuk, V. T.; Smolyanyuk, A. V.

doi:10.1209/0295-5075/112/52001

Cited by 5 publications

(3 citation statements)

References 21 publications

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“…The basics of the post-scission approach and the proposed statistical method for the systematization of fission fragments are described earlier [22,26,27]. A similar ideology is also implemented in the SPY (Scission Point Yields) model, which focuses on [28] studying the yields and energy characteristics of fission fragments, based on all statistical nucleon analysis configurations that can be realized at the nuclear scission point.…”

Section: Theorymentioning

confidence: 99%

Transformations of actinides fission product yields due to post-scission emission of nuclear particles: ²³²Th

et al. 2021

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The "many ensembles" method was proposed to investigate the influence of nuclear particles' post-scission emission on mass and charge distributions of fission products. The post scission approximation had been used; each of these ensembles consists of the fission fragments after emission of chains of different lengths, both the beta (±β) particles and neutrons. The theory allows one to find the most probable two fragment clusters of fission products and study their evolution after the post-scission emission of nuclear particles. The isotope <sup>232</sup>Th was chosen as an example, the fission fragments of which are intensively studied in the experiment. It is shown that the post-scission emission of nuclear particles eventually leads to the convergence of the asymmetric peaks, which looks like enhanced symmetric fission mode over asymmetric one for fission product yields. A comparison of the theoretical results and experimental data for the <sup>232</sup>Th fission fragments indicates their satisfactory matching.

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Section: Theorymentioning

confidence: 99%

Transformations of actinides fission product yields due to post-scission emission of nuclear particles: ²³²Th

et al. 2021

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“…Such a multi-fragmentary array will tend to their further clustering and ultimately form the entire diversity of isotopes of chemical elements. The success of this direction of the nucleosynthesis theory requires new ideas about the stability of nuclear matter of arbitrary size and an understanding of the rules governing the processes of its transformation [5,6].…”

Section: Introductionmentioning

confidence: 99%

Nucleosynthesis of Nuclear Matter: Entropy Effects

Maslyuk,

Skakun,

Semisalov

et al. 2023

Problems of Atomic Science and Technology

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The work considers an alternative way of formation of chemical elements during the disintegration of nuclear matter formed during the explosion of stars. In addition to the energy parameters that determine the stability of nuclear matter and the ways of its disintegration, the entropy factor must also be considered. The calculation points to its extreme feature in the transition from symmetric to structured or asymmetric decay caused by the “inclusion” of quantum effects from nuclear shells.

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“…Theory. -The proposed method of the MCSFF determination was described earlier in [12,13,15]. It offered to consider the nucleus as some condensed state of nuclear matter whose binding energy is not additive on sort and number of nucleons.…”

mentioning

confidence: 99%

The features of the fission fragments yields formation of the actinide nuclei on example of uranium isotopes

Maslyuk¹,

Парлаг²,

Romanyuk³

et al. 2017

EPL

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The first results about the features of the fission fragments yields and spectrum of the energy of fission over 100 isotopes of uranium are presented. The role of neutrons shells with N = 82 or N = 126 and protons shells with Z = 50 in the realization of symmetric (or onehumped) and asymmetric (2-or 3-humped) shapes of the fission fragment yields was investigated. It was shown that studies of Kr isotope yields under fission of uranium isotopes give also valuable information on the role of the mentioned nuclear shells, too. The obtained results can be useful in similar studies of other actinide nuclei.

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Super-heavy nuclei with Z = 118 and their mass and charge spectrum of fission fragments

Cited by 5 publications

References 21 publications

Transformations of actinides fission product yields due to post-scission emission of nuclear particles: ²³²Th

Transformations of actinides fission product yields due to post-scission emission of nuclear particles: ²³²Th

Nucleosynthesis of Nuclear Matter: Entropy Effects

The features of the fission fragments yields formation of the actinide nuclei on example of uranium isotopes

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Super-heavy nuclei with Z = 118 and their mass and charge spectrum of fission fragments

Cited by 5 publications

References 21 publications

Transformations of actinides fission product yields due to post-scission emission of nuclear particles: 232Th

Transformations of actinides fission product yields due to post-scission emission of nuclear particles: 232Th

Nucleosynthesis of Nuclear Matter: Entropy Effects

The features of the fission fragments yields formation of the actinide nuclei on example of uranium isotopes

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Product

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Transformations of actinides fission product yields due to post-scission emission of nuclear particles: ²³²Th

Transformations of actinides fission product yields due to post-scission emission of nuclear particles: ²³²Th