Fission modelling with FIFRELIN

Litaize, O.; Sérot, O.; Berge, L.

doi:10.1140/epja/i2015-15177-9

Cited by 126 publications

(95 citation statements)

References 66 publications

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“…Due to experimental difficulties to have a clear signal in such a γ -background, studied nuclei only concerned the long living ones (T 1 2 > minute). From the theoritical point of view, Monte Carlo simulation for particle emissions in fission codes have been developed, such as CGMF [14], FREYA [15], FIFRELIN [16]. These new developments bring complementary informations concerning the fission process and nuclear data of prompt neutron and gamma, but do not reproduce all of the experimental results and are still being ameliorated.…”

Section: Nuclear Data: Isomer Yieldsmentioning

confidence: 99%

“…3, it seems that in the spontaneous fission process of 252 Cf, an important part of 134 Te is produced after neutron emission, below the 6 + (at 1.691 MeV, T 1 2 = 164 ns) isomeric level (on the 4 + , 2 + or 0 + state). We compared experimental results with the fission modelling calculation code FIFRELIN [16]. The calculations of the spontaneous fission of 252 Cf were performed by O. Litaize (CEA, Cadarache, France).…”

Section: Experimental and Theoritical Effortsmentioning

confidence: 99%

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C-BORD project: “Effective container inspection at BORDer control points”

et al. 2017

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Abstract. In the framework of the C-BORD project of the H2020 programme to provide a safety chain for container inspection at border control points, CEA-DAM is involved to develop an identification method of Special Nuclear Material. Using active interrogation the main purpose is to specifically discriminate fissile actinides from fertile ones through the detection of γ-rays emitted by very short-lived isomers. We present here the interdependance of such a project with nuclear data. We first introduce the SNM identification method. Then, will be detailed the needs in nuclear data and first yields of specific short-lived isomers of 252 Cf spontaneous fission. Perspectives and conclusions will end the article.

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Section: Nuclear Data: Isomer Yieldsmentioning

confidence: 99%

Section: Experimental and Theoritical Effortsmentioning

confidence: 99%

C-BORD project: “Effective container inspection at BORDer control points”

et al. 2017

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“…FIFRELIN is a Monte Carlo code developed at CEA Cadarache [3][4][5]. This code aims to describe the de-excitation path of a fission fragment since its creation until reaching a nuclear state leading to a β decay of the atomic nucleus.…”

Section: Description Of Fifrelinmentioning

confidence: 99%

“…Section 2 presents briefly the experimental apparatus as well as methodology and results. The interpretation of these data was done by combining the fission channels predicted by Brosa [2] with the Monte Carlo code FIFRELIN [3][4][5]. In order to compare these simulated data with experimental data, energy loss corrections must be applied.…”

Section: Introductionmentioning

confidence: 99%

Theoretical investigation of fission fragment kinetic energy distributions in the symmetric mass region for²³³U(n_th,f)

Chebboubi¹,

Sérot²,

Kessedjian³

et al. 2017

EPJ Web Conf.

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Abstract. Fission yields are essential for nuclear reactor studies (decay heat, fuel inventory. . . ) and constitute also one of the main observables needed to improve our understanding of the fission process. The symmetric mass region is of particular interest due to various intriguing properties of the fission fragments already reported in the literature : inversion of the nuclear charge polarization, large width of the fission fragment kinetic energy distribution, strong change of the prompt neutron multiplicity, etc. Recently, measurements of fission yields and kinetic energy distributions in the symmetric mass region were achieved at the LOHENGRIN mass spectrometer of the Institut Laue-Langevin (ILL). This experimental work is challenging due to the low counting rate and the appearance of contaminant masses, leading to pronounced components in the fission fragment kinetic energy distribution. Despite removing the undesirable contributions, the fission fragment kinetic energy distributions still show two components, indicating that the fission process could be modal. To go further and better characterize these components a comparison between our experimental data and Monte Carlo calculations (FIFRELIN code) simulating the de-excitation of the fission fragments for different fission channels will be presented and discussed.

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“…Efforts to calculate PFN and fragment correlations using Monte-Carlo technique have been quite successful in reproducing available experimental data [6][7][8]. However, a e-mail: alf.gook@ec.europa.eu in the case of 235 U(n,f) difficulties have been encountered [8], especially regarding the dependency of ν on the fragment TKE.…”

Section: Introductionmentioning

confidence: 99%

Prompt neutron emission and energy balance in ²³⁵U(n,f)

2017

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Abstract. Investigations of prompt fission neutron (PFN) emission are of importance in understanding the fission process in general and the sharing of excitation energy among the fission fragments in particular. Experimental activities at JRC-Geel on PFN emission in response to OECD/NEA nuclear data requests is presented in this contribution. The focus lies on on-going investigations of PFN emission from the reaction 235 U(n,f) in the region of the resolved resonances taking place at the GELINA facility. For this reaction strong fluctuations of fission fragment mass distributions and mean total kinetic energy have been observed as a function of incident neutron energy in the resonance region. In addition, fluctuations of prompt neutron multiplicities have also been observed. The goal of the present study is to verify the current knowledge of PFN multiplicity fluctuations and to study correlations with fission fragment properties. The experiment employs a scintillation detector array for neutron detection, while fission fragment properties are determined via the double kinetic energy technique using a position sensitive twin ionization chamber.Results on PFN multiplicity correlations with fission fragment properties from the present study show significant differences compared to earlier studies on this reaction, induced by thermal neutrons. Specifically, the total kinetic energy dependence of the neutron multiplicity per fission shows an inverse slope ∂TKE/∂ν approximately 35% weaker than observed in earlier studies of thermal neutron induced fission on 235 U. The inverse slope is related to the energy carried away per emitted neutron and is, thereby, closely connected to the energy balance of the fission reaction. The present result should have strong impact on the modeling of both prompt neutron and prompt γ -ray emission in fission of the 236 U compound nucleus.

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Fission modelling with FIFRELIN

Cited by 126 publications

References 66 publications

C-BORD project: “Effective container inspection at BORDer control points”

C-BORD project: “Effective container inspection at BORDer control points”

Theoretical investigation of fission fragment kinetic energy distributions in the symmetric mass region for²³³U(n_th,f)

Prompt neutron emission and energy balance in ²³⁵U(n,f)

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Fission modelling with FIFRELIN

Cited by 126 publications

References 66 publications

C-BORD project: “Effective container inspection at BORDer control points”

C-BORD project: “Effective container inspection at BORDer control points”

Theoretical investigation of fission fragment kinetic energy distributions in the symmetric mass region for233U(nth,f)

Prompt neutron emission and energy balance in 235U(n,f)

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Product

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Theoretical investigation of fission fragment kinetic energy distributions in the symmetric mass region for²³³U(n_th,f)

Prompt neutron emission and energy balance in ²³⁵U(n,f)