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29 results on '"Fujio, Kazuki"'

1. Connection of four-dimensional Langevin model and Hauser-Feshbach theory to describe statistical decay of fission fragments

Author

Fujio, Kazuki, Okumura, Shin, Ishizuka, Chikako, Chiba, Satoshi, and Katabuchi, Tatsuya

Subjects
Nuclear Theory
Abstract

We developed a method superposing two different fission modes calculated in a four-dimensional Langevin model to obtain more accurate fission fragment yield and total kinetic energy (TKE). The two fission modes correspond to the standard I and standard II modes reported by Brosa et al., and parameters in the Langevin model and the superposing ratio were determined to reproduce the fission fragment yield of $^{240}$Pu of spontaneous fission. We also investigated the fission fragment yields and the TKEs of other Pu isotopes by using the same Langevin parameters and different superposing ratios, such as spontaneous fission of $^{238,242}$Pu and neutron-induced fission of $^{239}$Pu. The prompt fission observables, such as the neutron multiplicity, the prompt fission neutron spectrum, and the independent fission product yield were calculated in the Hauser-Feshbach statistical decay model implemented in a nuclear reaction code TALYS with $^{239}$Pu(n,f) in the incident energies ranging from thermal energy up to 5 MeV. The calculated fission observables qualitatively reproduce several known trends while calculated results have quantitative discrepancies between reported data. Although more improvements are needed for the most important nuclides, it turned out that our approach has the capability to provide prompt fission observables for difficult-to-measure nuclides., Comment: 19 pages, 10 figures, Under review in Journal of Nuclear Science and Technology

Published
2023

2. Effects of triaxiality and pairing interaction on fission barriers of actinide nuclei studied by density-dependence relativistic mean-field theory

Author

Kouno, Taiki, Ishizuka, Chikako, Fujio, Kazuki, Inakura, Tsunenori, and Chiba, Satoshi

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We employ density-dependent relativistic mean-field theory to study how the triaxiality and pairing interaction affect the inner fission barriers of actinide nuclei. It was found that triaxiality reduced the inner fission barriers and improved agreement with experimental values for many actinides. However, about 1-2 MeV discrepancy to the experimental values still remained for some of the considered nuclei. Such a discrepancy could be made further smaller by increasing the BCS pairing strength parameter. In this work, we demonstrated that adjusting the paring strength was effective to reproduce the experimental inner fission barriers as well as "pairing rotational energy" and binding energy in a consistent manner for nuclei where the effect of the triaxiality on the inner fission barriers was significant., Comment: 13 pages, 6 figures, 3 tables, IJMPE accepted

Published
2022

4. Fission trajectory analysis using ML techniques.

Author

Mukobara, Yuta, Chiba, Satoshi, Fujio, Kazuki, Katabuchi, Tatsuya, and Ishizuka, Chikako

Subjects
NUCLEAR fission, MACHINE learning, LANGEVIN equations, NUCLEAR reactions, RECURRENT neural networks
Abstract

This research analyzed trajectories of nuclear fission leading to symmetric or assymmetric mass division, obtained by a four-dimensional Langevin-model, using machine learning models. A hybrid neural network, combining Long Short-Term Memory (LSTM) and Gated Recurrent Unit (GRU), both of which were types of Recurrent Neural Networks (RNN), was utilized to classify whether each Langevin trajectory led to symmetric or asymmetric mass division. It was found that the current model could classify fate of these trajectories before reaching to the final destination (symmetric or assymmetric mode) with an accuracy of over 70%, clearly overestimating the asymmetric data. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Prompt-fission observable and fission yield calculations for actinides by TALYS

Author

Fujio Kazuki, Al-Adili Ali, Nordström Fredrik, Lemaître Jean-François, Okumura Shin, Chiba Satoshi, and Koning Arjan

Subjects
Physics, QC1-999
Abstract

The nuclear reaction code TALYS adopts the Hauser-Feshbach statistical decay theory, to de-excite fission fragments. This involves for instance the evaporation of prompt fission neutrons and γ-rays. TALYS incorporates databases of primary fission fragment distribution which consists of primary fission fragment yield and data for excitation energy distribution of fission fragments. We conducted a sensitivity study on three parameters in TALYS and fitted them in order to reproduce experimental and evaluated data, in thermal neutron-induced fission of 235U. Moreover, we demonstrate a large-scale calculation of average prompt neutron and γ-ray multiplicities for 243 selected actinide isotopes.

Published
2024
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6. Prompt-fission observable and fission yield calculations for actinides by TALYS

Author

Fujio, Kazuki, Al-Adili, Ali, Nordström, Fredrik, Lemaitre, Jean-Francois, Okumura, Shin, Chiba, Satoshi, Koning, Arjan, Fujio, Kazuki, Al-Adili, Ali, Nordström, Fredrik, Lemaitre, Jean-Francois, Okumura, Shin, Chiba, Satoshi, and Koning, Arjan

Abstract

The nuclear reaction code TALYS adopts the Hauser-Feshbach statistical decay theory, to de-excite fission fragments. This involves for instance the evaporation of prompt fission neutrons and gamma-rays. TALYS incorporates databases of primary fission fragment distribution which consists of primary fission fragment yield and data for excitation energy distribution of fission fragments. We conducted a sensitivity study on three parameters in TALYS and fitted them in order to reproduce experimental and evaluated data, in thermal neutron-induced fission of U-235. Moreover, we demonstrate a large-scale calculation of average prompt neutron and.-ray multiplicities for 243 selected actinide isotopes.

Published
2024
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10. TALYS calculations of prompt fission observables and independent fission product yields for the neutron-induced fission of U-235

Author

Fujio, Kazuki, Al-Adili, Ali, Nordström, Fredrik, Lemaitre, Jean-Francois, Okumura, Shin, Chiba, Satoshi, Koning, Arjan, Fujio, Kazuki, Al-Adili, Ali, Nordström, Fredrik, Lemaitre, Jean-Francois, Okumura, Shin, Chiba, Satoshi, and Koning, Arjan

Abstract

The TALYS nuclear reaction code's Hauser-Feshbach statistical decay model has been adapted in order to calculate prompt fission neutron and ?-ray observables by iterating over deexciting fission fragments. Several fission fragment generators such as GEF, HF3D, and SPY were employed to provide TALYS with databases. These databases contain standardized tables with fission fragment yields, mean excitation energies and their widths, and aver-age total kinetic energy, as a function of charge and mass number of primary fission fragments. The resulting calcula-tions, including prompt particle multiplicities, spectra, aver-age energies, and independent fission product yields, were compared with experimental and evaluated data. This work first outlines the new methodology implemented in TALYS and examines the effects of three important parameters on the final evaporation data. Furthermore, the neutron-induced fission of U-235 is investigated in detail as a function of inci-dent energy. The results from TALYS, with input from GEF and (HFD)-D-3, were compared with available experimental data and the results of the stand-alone GEF code. The proposed methodology contributes to an improved capability to model the fission process.

Published
2023
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11. Connection of four-dimensional Langevin model and Hauser-Feshbach theory to describe statistical decay of fission fragments

Author

Fujio, Kazuki, Okumura, Shin, Ishizuka, Chikako, Chiba, Satoshi, and Katabuchi, Tatsuya

Abstract

ABSTRACTWe have developed a novel theoretical method to obtain independent fission product yields and prompt neutron observables by connecting mass and total kinetic energy (TKE) distributions calculated by a four-dimensional Langevin dynamical model to a Hauser-Feshbach statistical decay model. In the Langevin calculations, mass distributions corresponding to the standard I and II modes were obtained separately and superposed to reproduce the fission fragment yield of spontaneous fission of ${ ^{238,240,242}}{\rm{Pu}}$ 238,240,242Puand thermal neutron-induced fission of ${ ^{239}}{\rm{Pu}}$ 239Pu. This was achieved by using different neck parameters for these two modes in the two-center shell model shape parametrization, and a systematics of the superposing ratio was obtained as a function of $\left({N - Z} \right)/A$N−Z/Aof the fissioning nuclei. The Hauser-Feshbach calculations were performed using a nuclear reaction code TALYS for ${ ^{239}}{\rm{Pu}}\left({{\rm{n}},{\rm{f}}} \right)$ 239Pun,freaction in the incident energy range from thermal up to $5\ {\rm{MeV}}$5 MeV, and the calculated prompt fission observables were compared with experimental and evaluated data. Although further improvements are needed for the most important nuclides, it turned out that the present methodology has the capability to prepare fission-related nuclear data for nuclides for which measurements are difficult.

Published
2024
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13. Energy competition and pairing effect for the fission path with a microscopic model

Author

Fujio, Kazuki, Ebata, Shuichiro, Inakura, Tsunenori, Ishizuka, Chikako, and Chiba, Satoshi

Subjects
Materials Science (miscellaneous), Biophysics, General Physics and Astronomy, Physical and Theoretical Chemistry, Mathematical Physics
Abstract

We studied the fission barrier of 236U with a microscopic mean-field model employing Skyrme-type effective interaction. It has been known that the microscopic mean-field calculation had a trend of overestimating the fission barriers derived from the fission cross section, and our results were found to be in accord with it. To reveal a major factor of the discrepancy, we investigated various components of the Skyrme energy-density functional building of the fission barrier height by a static mean-field model, including nuclear pairing correlation. We found that the spin-orbit and pairing terms affected the fine structure of the fission barrier as a function of elongation of the nucleus. Therefore, we investigated the sensitivity of the fission barrier height on the pairing strength, considering the change of level density along the calculated fission path.

Published
2022

17. Optical and electrical characteristics of carbonized film prepared from coal tar pitch under a high magnetic field of 10 T.

Author

Hamasaki, Atom, Fujio, Kazuki, Mori, Tomoya, Iide, Masashi, Takeuchi, Yuka, Katsuki, Akio, and Ozeki, Sumio

Subjects
*COAL tar, *MAGNETIC fields, *COKE (Coal product), *CARBON films, *MAGNETIC films, *MAGNETICS
Abstract

Carbon microcrystallites can become oriented in the carbonization process of coal tar pitch, which occurs with the characteristic where a mesophase is obtained, by using a magnetic field. An oriented film that has the ability to transmit visible light from 450 to 800 nm can be obtained by sandwiching an appropriate amount of coal pitch between two glass plates and heating in an inert atmosphere at 793 K under a magnetic field. This film can be used to obtain the same linearly polarized light as a commercially available polarizing element. The degree of orientation of the film prepared in a magnetic field of 3 T is not sufficient to use as a polarizer, but a magnetic field of 6 T is able to sufficiently suppress the passage of crossed polarized light. The electrical conductivity of the carbon film prepared at 793 K is improved by 10 times by the application of a magnetic field of 10 T. The electrical conductivity is sensitive to the magnetic field, and there is a possibility that it can be further improved by applying 10 T or more. Coal tar pitch is the residue after obtaining coke from coal, and the optical and electrical advantage of a material prepared in the magnetic field derived from such natural products is clarified. [ABSTRACT FROM AUTHOR]

Published
2019
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