Your search keyword '"Sage C"' showing total 35 results

1. New measurement of the 235U(nth,f) fission yields and development of a Time of Flight line at the LOHENGRIN spectrometer

Author

Houdouin-Quenault M., Sage C., Méplan O., Ramdhane M., Dauvergne D., Gallin-Martel M.L., Muraz J.F., Guillaudin O., Marcatili S., Kessedjian G., Chebboubi A., Serot O., Litaize O., Bernard D., Köster U., Kim Y.H., Mutti P., and Smith A.G.

Subjects

Physics, QC1-999

Abstract

The study of nuclear fission yields has a major impact on the characterization and understanding of the fission process and is mandatory for reactor applications. In the framework of a collaboration between the CEA, the LPSC and the ILL, a program of actinide fission yield measurements has been ongoing for several years at the LOHENGRIN spectrometer. However, the measurement of very low fission yields in the symmetry region and the heavy wing of the distributions is difficult to achieve due to the strong contamination by other masses with much higher yields and requires the development of a new experimental setup. This paper will first present the results of a new absolute measurement of the 235U(nth,f) mass yields using an ionization chamber placed at the exit of the spectrometer. Although very well documented in the literature, these yields show uncertainties lying from 3% to 10% with large discrepancies between libraries and a lack of correlation matrices. New experimental data obtained at the LOHENGRIN spectrometer will be detailed, along with the measurement method and the production of the experimental covariance matrix. The second part will show the development of a Time of Flight (ToF) line in order to improve the background rejection in the mass yield measurements. In the symmetry region, the precision of the measurement is limited by the background estimation due to the charge exchanges with the residual gas of the separator. We plan to analyze the events using a triple coincidence (∆E x E) x ToF, whereas today only (∆E x E) selection is available. The new ToF line is built using Si3N4 foils and secondary electron detectors (SED) for the start and stop detectors. We will present the choices made for the SED technology along with the progress achieved on the ToF line characterization.

Published

2023

2. Fission fragments observables measured at the LOHENGRIN spectrometer

Author

Julien-Laferrière S., Thombansen L., Kessedjian G., Chebboubi A., Serot O., Sage C., Méplan O., Ramdhane M., Litaize O., Nicholson J., Bernard D., Köster U., Mutti P., Materna T., and Rapala M.

Subjects

Physics, QC1-999

Abstract

Nuclear fission yields are key data for reactor studies, such as spent fuel inventory or decay heat, and for understanding fission process. Despite a significant effort allocated to measure fission yields during the last decades, the recent evaluated libraries still need improvements in particular in the reduction of the uncertainties. Moreover, some discrepancies between these libraries must be explained. Additional measurements provide complementary information and estimations of experimental correlations, and new kinds of measurements enable to test the models used during the nuclear data evaluation process. A common effort by the CEA, the LPSC and the ILL aims at tackling these issues by providing precise measurements of isotopic and isobaric fission yields with the related variance-covariance matrices. Additionally, the experimental program involves a large range of observables requested by the evaluations, such as kinetic energy dependency of isotopic yields and odd-even effect in order to test the sharing of total excitation energy and the spin generation mechanism. Another example is the complete range of isotopic distribution per mass that allows the determination of the charge polarization, which has to be consistent for complementary masses (pre-neutron emission). For instance, this information is the key observable for the evaluation of isotopic yields. Finally, ionic charge distributions are indirect measurements of nanosecond isomeric ratios as a probe of the nuclear de-excitation path in the (E*, J, π) representation. Measurements for thermal neutron induced fission of 241 Pu have been carried out at the ILL in Grenoble, using the LOHENGRIN mass spectrometer. Methods, results and comparison to models calculations will be presented corresponding to a status on fission fragments observables reachable with this facility.

Published

2020

3. Measurements of Fission Products Yields with the LOHENGRIN mass spectrometer at ILL

Author

Chebboubi A., Julien-Laferrière S., Nicholson J., Kessedjian G., Serot O., Blanc A., Bernard D., Faust H., Kim Y.H., Köster U., Letourneau A., Litaize O., Méplan O., Mutti P., Rapala M., Ramdhane M., and Sage C.

Subjects

Physics, QC1-999

Abstract

The CEA in collaboration with ILL and LPSC has developed a measurement program on symmetric and heavy mass fission product distributions. The combination of measurements with ionisation chamber and Ge detectors is necessary to describe precisely the heavy fission product region in mass and charge. Recently, new measurements of fission yields and kinetic energy distributions, for different fissioning systems (233,235 U(nth, f),241 Am(2nth, f) and 239,241 Pu(nth, f), were performed with recoil spectrometer LOHENGRIN. The focus has been done on the self-normalization of the data to provide new absolute measurements, independently of any libraries along with the experimental covariance matrix. To reach precise measurements, a new experimental procedure was developed along with a new analysis method.

Published

2020

4. Status of fission fragment observables measured with the LOHENGRIN spectrometer

Author

Julien-Laferrière S., Thombansen L., Kessedjian G., Chebboubi A., Serot O., Sage C., Méplan O., Ramdhane M., Litaize O., Bernard D., Nicholson J., Blanc A., Faust H., Mutti P., Köster U., Letourneau A., Materna T., and Rapala M.

Subjects

Physics, QC1-999

Abstract

Nuclear fission yields are key parameters to evaluate reactor physics observables, such as fuel inventory, decay heat, spent fuel radiotoxicity, criticality but also for understanding the fission process. Despite a significant effort allocated to measure fission yields during the last decades, the recent evaluated libraries still need improvements in particular in the description of the uncertainties with the associated correlations. Additional kinds of measurements provide complementary information in order to test the models used in the nuclear data evaluation. Moreover, some discrepancies between these libraries must be explained. A common effort by the CEA, the LPSC and the ILL aims at tackling these issues by providing precise measurement of isotopic and isobaric fission yields with the related variance-covariance matrices. Nevertheless, the experimental program represents itself a large range of observables requested by the evaluations: isotopic yields, nuclear charge polarization, odd-even effect, isomeric ratio and their dependency with fission fragment kinetic energy as a probe of the nuclear de-excitation path in the (E*, Jπ) representation. Measurements for thermal neutron induced fission of 241Pu have been carried out at the Institut Laue Langevin using the LOHENGRIN mass spectrometer. Experimental program, observables reachable, results and comparison to model calculations are shown.

Published

2019

5. Isotopic distribution and dependency to fission product kinetic energy for 241Pu thermal neutron-induced fission

Author

Julien-Laferrière S., Kessedjian G., Serot O., Chebboubi A., Bernard D., Blanc A., Köster U., Litaize O., Materna T., Meplan O., Rapala M., and Sage C.

Subjects

Physics, QC1-999

Abstract

Nuclear fission yields data measurements for thermal neutron induced fission of 241Pu have been carried out at the ILL in Grenoble, using the Lohengrin mass spectrometer. The relative isotopic yields for the masses 137 up to 141 have been derived with the associated experimental covariance matrices. Moreover, from preliminary results for the masses 92, 138 and 139, a clear evolution over fission product kinetic energy of the isotopic total count rate is observed.

Published

2018

6. 233U mass yield measurements around and within the symmetry region with the ILL Lohengrin spectrometer

Author

Chebboubi A., Kessedjian G., Sage C., Bernard D., Blanc A., Faust H., Köster U., Litaize O., Mutti P., and Serot O.

Subjects

Physics, QC1-999

Abstract

The study of fission yields has a major impact on the characterization and understanding of the fission process and is mandatory for reactor applications. The LPSC in collaboration with ILL and CEA has developed a measurement program on fission fragment distributions at the Lohengrin spectrometer of the ILL, with a special focus on the masses constituting the heavy peak. We will present in this paper our measurement of the very low fission yields in the symmetry mass region and the heavy mass wing of the distribution for 233U thermal neutron induced fission. The difficulty due to the strong contamination by other masses with much higher yields will be addressed in the form of a new analysis method featuring the required contaminant correction. The apparition of structures in the kinetic energy distributions and possible interpretations will be discussed, such as a possible evidence of fission modes.

Published

2016

7. Isomeric ratio measurements with the ILL LOHENGRIN spectrometer

Author

Chebboubi A., Kessedjian G., Litaize O., Serot O., Faust H., Bernard D., Blanc A., Köster U., Méplan O., Mutti P., and Sage C.

Subjects

Physics, QC1-999

Abstract

The modelling of γ heating and neutron damage inside a nuclear reactor is essential to design the next generation of nuclear reactors. The determination of the fission fragment momentum is a key element to perform accurate calculations of the γ heating. One way to assess this information is to look at the isomeric ratio of different nuclei. According to the lifetime of the isomeric state, different experimental techniques were developed at the LOHENGRIN spectrometer. A focus on the measurement of isomeric ratios of 136I in neutron induced fission of 241Pu is presented. A discussion with the current assumptions used in the evaluation process for isomeric ratio is also shown.

Published

2016

8. From EXILL (EXogam at the ILL) to FIPPS (FIssion Product Prompt γ-ray Spectrometer)

Author

Blanc A., Chebboubi A., de France G., Drouet F., Faust H., Jentschel M., Kessedjian G., Köster U., Leoni S., Materna T., Mutti P., Panebianco S., Sage C., Simpson G., Soldner T., Ur C. A., Urban W., and Vancraeyenest A.

Subjects

Physics, QC1-999

Abstract

Within the EXILL campaign a large and efficient cluster of Ge-detectors was installed around a very well collimated neutron beam. This has allowed to carry out rather complete spectroscopic studies close to the line of stability using the (n,γ) reaction. Neutron rich isotopes were produced by neutron induced fission and prompt spectroscopy was carried out. The isotope selection in this setup was based on a partially known level scheme and the use of triple coincidences. The latter is limiting the statistical sensitivity in the case of weak production yields. Based on the experiences of these campaigns we are currently developing a new setup: FIPPS (FIssion Product Prompt Spectroscopy). This setup combines a collimated neutron beam, a highly efficient cluster of Ge detectors, a gas filled magnet and auxiliary detectors. The presence of the gas filled magnet will allow us to identify fission products directly and should give access to a new quality of studies if compared to the EXILL campaign. The EXILL campaign and the FIPPS project are presented.

Published

2015

9. Principles of a gas filled magnetic spectrometer for fission studies

Author

Faust H., Chebboubi A., Kessedjian G., Sage C., Köster U., and Blanc A.

Subjects

Physics, QC1-999

Abstract

The spectroscopy of the prompt gamma decay from fission products gives information on the entry states, e.g. distribution functions for excitation energy and spin, and therefore a direct link to the fission process itself. This type of spectroscopy is, however, only possible when a filter can be constructed which allows setting a gate to the gamma-spectrum in a narrow region in mass and nuclear charge, as well as on the total excitation energy of the fragment split under investigation. A possible configuration of a prompt gamma-ray spectrometer consist of a gamma-ray array composed of high resolution germanium detectors, coupled to a gas filled magnet. We will outline the principles for a gas filled magnetic spectrometer for fission product spectroscopy. In particular the focusing characteristics of such a device, which are valid for particles in the velocity regime of E/A< 1MeV/amu, will be addressed. First experiments on the LOHENGRIN spectrometer in Grenoble investigating on the behavior of fission products in gas filled magnets have been performed, and have validated the experimental approach to the nuclear fission process with such a device.

Published

2013

10. Prompt gamma ray-spectroscopy of N = 50 fission fragments

Author

Drouet F., Simpson G.S., Vancraeyenest A., Gey G., Kessedjian G., Malkiewicz T., Ramdhane M., Sage C., Thiamova G., Grahn T., Greenlees P.T., Hauschild K., Herzan A., Jakobsson U., Jones P., Julin R., Juutinen S., Ketelhut S., Lopez-Martens A., Nieminen P., Peura P., Rahkila P., Rinta-Antila S., Ruotsalainen P., Sandzelius M., Saren J., Scholey C., Sorri J., and Uusitalo J.

Subjects

Physics, QC1-999

Abstract

Excited states in the nuclei 83As and 84,86Se have been studied via prompt γ-ray spectroscopy. The nuclei were produced by the proton-induced fission of a 238U target, at the accelerator of the University of Jyväskylä. The JUROGAM-II array was used to detect prompt γ-rays and a triple-γ coincidence analysis performed. A comparison of the N = 50 nuclei with shell-model calculations reproduces the low-lying states in 83As and 84Se well. The inclusion of particle-hole excitations is necessary to correctly describe the states above ∼ 3.5 MeV.

Published

2013

11. Prompt γ-ray spectroscopy of the neutron-rich 124Cd

Author

Vancraeyenest A., Simpson G.S., Gey G., Greenlees P.T., Drouet F., Kessedjian G., Malkiewicz T., Ramdhane M., Sage C., Thiamova G., Grahn T., Hauschild K., Herzan A., Jakobsson U., Jones P., Julin R., Juutinen S., Ketelhut S., Lopez-Martens A., Nieminen P., Peura P., Rahkila P., Rinta-Antila S., Ruotsalainen P., Sandzelius M., Saren J., Scholey C., Sorri J., and Uusitalo J.

Subjects

Physics, QC1-999

Abstract

Prompt γ-ray spectroscopy of neutron-rich cadmium isotopes has been performed. The nuclei of interest have been populated via a 25-MeV, proton-induced fission of the 238U thick target and prompt γ-rays measured using the multi-detector HPGe array JUROGAM II. New high-spin decays have been observed and placed in the level scheme using triple coincidence gates. The experimental results are compared to shell-model calculations and show good agreement.

Published

2013

12. Neutron transmission and capture of 241Am

Author

Sage C., Gunsing F., Wynants R., Schillebeeckx P., Plompen A., Kopecky S., Lampoudis C., Bouland O., and Noguere G.

Subjects

Physics, QC1-999

Abstract

A set of neutron transmission and capture experiments based on the Time Of Flight (TOF) technique, were performed in order to determine the 241Am capture cross section in the energy range from 0.01 eV to 1 keV. The GELINA facility of the Institute for Reference Materials and Measurements (IRMM) served as the neutron source. A pair of C6D6 liquid scintillators was used to register the prompt gamma rays emerging from the americium sample, while a Li-glass detector was used in the transmission setup. Results from the capture and transmission data acquired are consistent with each other, but appear to be inconsistent with the evaluated data files. Resonance parameters have been derived for the data up to the energy of 100 eV.

Published

2013

13. Evaluation of excitation energy and spin in fission fragments using the statistical model, and the FIPPS project

Author

Sage C., Kessedjian G., Faust H., Koester U., and Chebboubi A.

Subjects

Physics, QC1-999

Abstract

We review the statistical model and its application for the process of nuclear fission. The expressions for excitation energy and spin distributions for the individual fission fragments are given. We will finally emphasize the importance of measuring prompt gamma decay to further test the statistical model in nuclear fission with the FIPPS project.

Published

2013

14. Development of a Gas Filled Magnet spectrometer coupled with the Lohengrin spectrometer for fission study

Author

Materna T., Köster U., Faust H., Chebboubi A., Kessedjian G., Sage C., and Serot O.

Subjects

Physics, QC1-999

Abstract

The accurate knowledge of the fission of actinides is necessary for studies of innovative nuclear reactor concepts. The fission yields have a direct influence on the evaluation of the fuel inventory or the reactor residual power after shutdown. A collaboration between the ILL, LPSC and CEA has developed a measurement program on fission fragment distributions at ILL in order to measure the isotopic and isomeric yields. The method is illustrated using the 233U(n,f)98Y reaction. However, the extracted beam from the Lohengrin spectrometer is not isobaric ions which limits the low yield measurements. Presently, the coupling of the Lohengrin spectrometer with a Gas Filled Magnet (GFM) is studied at the ILL in order to define and validate the enhanced purification of the extracted beam. This work will present the results of the spectrometer characterisation, along with a comparison with a dedicated Monte Carlo simulation especially developed for this purpose.

Published

2013

15. New measurement of the 235U(nth,f) fission yields and development of a Time of Flight line at the LOHENGRIN spectrometer.

Author

Houdouin-Quenault, M., Sage, C., Méplan, O., Ramdhane, M., Dauvergne, D., Gallin-Martel, M.L., Muraz, J.F., Guillaudin, O., Marcatili, S., Kessedjian, G., Chebboubi, A., Serot, O., Litaize, O., Bernard, D., Köster, U., Kim, Y.H., Mutti, P., and Smith, A.G.

Subjects

*NUCLEAR fission, *TIME-of-flight spectrometers, *NUCLEAR reactors, *ACTINIDE elements, *COVARIANCE matrices

Abstract

The study of nuclear fission yields has a major impact on the characterization and understanding of the fission process and is mandatory for reactor applications. In the framework of a collaboration between the CEA, the LPSC and the ILL, a program of actinide fission yield measurements has been ongoing for several years at the LOHENGRIN spectrometer. However, the measurement of very low fission yields in the symmetry region and the heavy wing of the distributions is difficult to achieve due to the strong contamination by other masses with much higher yields and requires the development of a new experimental setup. This paper will first present the results of a new absolute measurement of the 235U(nth,f) mass yields using an ionization chamber placed at the exit of the spectrometer. Although very well documented in the literature, these yields show uncertainties lying from 3% to 10% with large discrepancies between libraries and a lack of correlation matrices. New experimental data obtained at the LOHENGRIN spectrometer will be detailed, along with the measurement method and the production of the experimental covariance matrix. The second part will show the development of a Time of Flight (ToF) line in order to improve the background rejection in the mass yield measurements. In the symmetry region, the precision of the measurement is limited by the background estimation due to the charge exchanges with the residual gas of the separator. We plan to analyze the events using a triple coincidence (∆E x E) x ToF, whereas today only (∆E x E) selection is available. The new ToF line is built using Si3N4 foils and secondary electron detectors (SED) for the start and stop detectors. We will present the choices made for the SED technology along with the progress achieved on the ToF line characterization. [ABSTRACT FROM AUTHOR]

Published

2023

16. Investigation of fission product isomeric ratios and angular momenta of 132Sn populated in the 241Pu(nth,f) reaction

Author

Nicholson, J., Chebboubi, A., Serot, O., Kessedjian, G., Kim, Y.H., Köster, U., Litaize, O., Méplan, O., Sage, C., Ramdhane, M., CEA Cadarache, Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes (UGA), and Institut Laue-Langevin (ILL)

Subjects

Physics, QC1-999, Physics::Atomic and Molecular Clusters, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Nuclear Experiment

Abstract

During an experimental campaign performed at the LOHENGRIN recoil spectrometer of the Institut Laue-Langevin (ILL), a kinetic energy dependence of 132Sn fission product isomeric ratio (IR) has been measured by inducing thermal fission of 241Pu. The IRs are deduced using gamma ray spectrometry in coincidence with the ionisation chamber. To interpret these data, we use the FIFRELIN Monte-Carlo code to simulate the de-excitation of the fission fragments. Combining the IRs with the FIFRELIN calculations, the angular momentum distribution with kinetic energy of the doubly magic nucleus of 132Sn was deduced. This will be compared with the angular momentum distribution obtained for the reaction 235U(nth,f) for 132Sn.

Published

2021

17. Measurements of Fission Products Yields with the LOHENGRIN mass spectrometer at ILL.

Author

Kawano, T., Chebboubi, A., Julien-Laferrière, S., Nicholson, J., Kessedjian, G., Serot, O., Blanc, A., Bernard, D., Faust, H., Kim, Y.H., Köster, U., Letourneau, A., Litaize, O., Méplan, O., Mutti, P., Rapala, M., Ramdhane, M., and Sage, C.

Subjects

FISSION products, MASS spectrometers, KINETIC energy, COVARIANCE matrices, GERMANIUM

Abstract

The CEA in collaboration with ILL and LPSC has developed a measurement program on symmetric and heavy mass fission product distributions. The combination of measurements with ionisation chamber and Ge detectors is necessary to describe precisely the heavy fission product region in mass and charge. Recently, new measurements of fission yields and kinetic energy distributions, for different fissioning systems (233,235 U(nth, f),241 Am(2nth, f) and 239,241 Pu(nth, f), were performed with recoil spectrometer LOHENGRIN. The focus has been done on the self-normalization of the data to provide new absolute measurements, independently of any libraries along with the experimental covariance matrix. To reach precise measurements, a new experimental procedure was developed along with a new analysis method. [ABSTRACT FROM AUTHOR]

Published

2020

18. Isotopic distribution and dependency to fission product kinetic energy for 241Pu thermal neutron-induced fission.

Author

Köster, U., Julien-Laferrière, S., Kessedjian, G., Serot, O., Chebboubi, A., Bernard, D., Blanc, A., Litaize, O., Materna, T., Meplan, O., Rapala, M., and Sage, C.

Subjects

NUCLEAR fission, THERMAL neutrons, KINETIC energy, MASS spectrometry, ANALYSIS of covariance

Abstract

Nuclear fission yields data measurements for thermal neutron induced fission of 241Pu have been carried out at the ILL in Grenoble, using the Lohengrin mass spectrometer. The relative isotopic yields for the masses 137 up to 141 have been derived with the associated experimental covariance matrices. Moreover, from preliminary results for the masses 92, 138 and 139, a clear evolution over fission product kinetic energy of the isotopic total count rate is observed. [ABSTRACT FROM AUTHOR]

Published

2018

19. From EXILL (EXogam at the ILL) to FIPPS (FIssion Product Promptγ-ray Spectrometer)

Author

Blanc, A., primary, Chebboubi, A., additional, de France, G., additional, Drouet, F., additional, Faust, H., additional, Jentschel, M., additional, Kessedjian, G., additional, Köster, U., additional, Leoni, S., additional, Materna, T., additional, Mutti, P., additional, Panebianco, S., additional, Sage, C., additional, Simpson, G., additional, Soldner, T., additional, Ur, C. A., additional, Urban, W., additional, and Vancraeyenest, A., additional

Published

2015

20. 233U mass yield measurements around and within the symmetry region with the ILL Lohengrin spectrometer.

Author

Chebboubi, A., Kessedjian, G., Sage, C., Bernard, D., Blanc, A., Faust, H., Köster, U., Litaize, O., Mutti, P., and Serot, O.

Subjects

NUCLEAR fission, FISSION counters, NUCLEAR reactions, NEUTRONS, KINETIC energy

Abstract

The study of fission yields has a major impact on the characterization and understanding of the fission process and is mandatory for reactor applications. The LPSC in collaboration with ILL and CEA has developed a measurement program on fission fragment distributions at the Lohengrin spectrometer of the ILL, with a special focus on the masses constituting the heavy peak. We will present in this paper our measurement of the very low fission yields in the symmetry mass region and the heavy mass wing of the distribution for 233U thermal neutron induced fission. The difficulty due to the strong contamination by other masses with much higher yields will be addressed in the form of a new analysis method featuring the required contaminant correction. The apparition of structures in the kinetic energy distributions and possible interpretations will be discussed, such as a possible evidence of fission modes. [ABSTRACT FROM AUTHOR]

Published

2016

21. Measurement of the fission yield of 136Cs in the 239Pu(nth,f) reaction

Author

Chebboubi Abdelaziz, Bernard David, Vallet Vanessa, Kessedjian Grégoire, Méplan Olivier, Kim Yung Hee, Köster Ulli, Géhin Florian, Sage Christophe, Ramdhane Mourad, Houdouin-Quenault Maxime, Düllmann Christoph E., Mokry Christoph, Runke Jörg, Renisch Dennis, Litaize Olivier, and Serot Olivier

Subjects

Physics, QC1-999

Abstract

A recent experimental campaign performed at the LOHENGRIN spectrometer at ILL aimed at measuring the independent fission yield of 136Cs in the 239Pu(nth,f) reaction. This nuclide can have an important contribution to the total dose rate coming from spent light water reactor UOX and MOX fuels. Moreover, its impact is of first order on the uncertainty of the total dose rate calculated in specific areas of Nuclear Power Plants within accidental conditions. One of the most important sources of uncertainty is its independent fission yield. Therefore, a new measurement of its independent yield along with a rigorous uncertainty analysis was performed. Due to its low independent yield, a new measurement technique has been applied. Ions recoiling from neutron-irradiated 239Pu target were collected by implantation into an Al foil placed inside a vacuum chamber. This foil was then transferred to a low γ-ray background setup located at nearby laboratory (LPSC). The procedure was then repeated for different LOHENGRIN settings. Compared to the JEFF-3.1.1 library, a decrease of the fission yield of 136Cs with a reduced uncertainty is obtained.

Published

2023

22. Angular momentum of doubly magic 132Sn fission product: Experimental and theoretical aspects

Author

Serot Olivier, Chebboubi Abdelhazize, Nicholson Jehaan, Kessedjian Grégoire, Litaize Olivier, Sage Christophe, Meplan Olivier, Ramdhane Mourad, Köster Ulli, and Kim Yung Hee

Subjects

Physics, QC1-999

Abstract

Despite the numerous theoretical and experimental works published very recently, the way in which fission fragments acquire their angular momentum is still an open question. This angular momentum generation mechanism is important not only for improving our understanding of the fission process, but also for nuclear energy applications, since the angular momentum of fission fragments strongly impact the prompt gamma spectra and consequently the decay heat in a reactor. In this context, within the framework of a collaboration between the ‘Laboratoire de Physique Subatomique et Corpusculaire’ (LPSC, France), the ‘Institut Laue Langevin’ (ILL, France) and the CEA-Cadarache (France), an experimental program was developed on the LO-HENGRIN mass-spectrometer with the aim of measuring isomeric ratio of some fission products for different thermal-neutron-induced fission reactions. This paper will be focused on the results obtained for the spherical nucleus 132Sn following thermal-neutron-induced fission of both 235U and 241Pu targets. To further challenge the angular momentum generation models, 132Sn isomeric ratio (IR) was measured as a function of 132Sn fission product kinetic energy (KE). The angular momentum was determined by combining our experimental data with the calculations performed with the FIFRELIN Monte Carlo code. A clear angular momentum decrease with KE was observed for both reactions. Lastly, we investigate the dependence of the 132Sn angular momentum with the incident neutron energy, from thermal region up to 5 MeV (below the second-chance fission). For that, the four free available parameters in FIFRELIN are selected in order to reproduce the average prompt neutron multiplicity. In this way, the angular momentum is deduced for each neutron energy. These results are discussed in terms of the impact of the available intrinsic excitation energy at scission on the spin generation mechanism.

Published

2023

23. Prompt gamma ray-spectroscopy ofN= 50 fission fragments

Author

Drouet, F., primary, Simpson, G.S., additional, Vancraeyenest, A., additional, Gey, G., additional, Kessedjian, G., additional, Malkiewicz, T., additional, Ramdhane, M., additional, Sage, C., additional, Thiamova, G., additional, Grahn, T., additional, Greenlees, P.T., additional, Hauschild, K., additional, Herzan, A., additional, Jakobsson, U., additional, Jones, P., additional, Julin, R., additional, Juutinen, S., additional, Ketelhut, S., additional, Lopez-Martens, A., additional, Nieminen, P., additional, Peura, P., additional, Rahkila, P., additional, Rinta-Antila, S., additional, Ruotsalainen, P., additional, Sandzelius, M., additional, Saren, J., additional, Scholey, C., additional, Sorri, J., additional, and Uusitalo, J., additional

Published

2013

24. Promptγ-ray spectroscopy of the neutron-rich124Cd

Author

Vancraeyenest, A., primary, Simpson, G.S., additional, Gey, G., additional, Greenlees, P.T., additional, Drouet, F., additional, Kessedjian, G., additional, Malkiewicz, T., additional, Ramdhane, M., additional, Sage, C., additional, Thiamova, G., additional, Grahn, T., additional, Hauschild, K., additional, Herzan, A., additional, Jakobsson, U., additional, Jones, P., additional, Julin, R., additional, Juutinen, S., additional, Ketelhut, S., additional, Lopez-Martens, A., additional, Nieminen, P., additional, Peura, P., additional, Rahkila, P., additional, Rinta-Antila, S., additional, Ruotsalainen, P., additional, Sandzelius, M., additional, Saren, J., additional, Scholey, C., additional, Sorri, J., additional, and Uusitalo, J., additional

Published

2013

25. Neutron transmission and capture of241Am

Author

Lampoudis, C., primary, Kopecky, S., additional, Plompen, A., additional, Schillebeeckx, P., additional, Wynants, R., additional, Gunsing, F., additional, Sage, C., additional, Bouland, O., additional, and Noguere, G., additional

Published

2013

26. Evaluation of excitation energy and spin in fission fragments using the statistical model, and the FIPPS project

Author

Faust, H., primary, Kessedjian, G., additional, Sage, C., additional, Koester, U., additional, and Chebboubi, A., additional

Published

2013

27. Development of a Gas Filled Magnet spectrometer coupled with the Lohengrin spectrometer for fission study

Author

Kessedjian, G., primary, Chebboubi, A., additional, Faust, H., additional, Köster, U., additional, Materna, T., additional, Sage, C., additional, and Serot, O., additional

Published

2013

28. Prompt γ-ray spectroscopy of the neutron-rich 124Cd.

Author

Vancraeyenest, A., Simpson, G. S., Gey, G., Greenlees, P. T., Drouet, F., Kessedjian, G., Malkiewicz, T., Ramdhane, M., Sage, C., Thiamova, G., Grahn, T., Hauschild, K., Herzan, A., Jakobsson, U., Jones, P., Julin, R., Juutinen, S., Ketelhut, S., Lopez-Martens, A., and Nieminen, P.

Subjects

CADMIUM isotopes, SPECTROMETRY, NUCLEAR reactors, SPECTRUM analysis, COINCIDENCE circuits

Abstract

Prompt γ-ray spectroscopy of neutron-rich cadmium isotopes has been performed. The nuclei of interest have been populated via a 25-MeV, proton-induced fission of the 238U thick target and prompt y-rays measured using the multi-detector HPGe array JUROGAM II. New high-spin decays have been observed and placed in the level scheme using triple coincidence gates. The experimental results are compared to shell-model calculations and show good agreement. [ABSTRACT FROM AUTHOR]

Published

2013

29. Advances in neutron-induced resonance reaction cross section studies at GELINA

Author

Borella, A., primary, Gunsing, F., additional, Kopecky, S., additional, Ivanov, I., additional, Mihailescu, C., additional, Moxon, M., additional, Plompen, A. J.M., additional, Sage, C., additional, Schillebeeckx, P., additional, Siegler, P., additional, and Sirakov, I., additional

Published

2007

30. A new high efficiency array of C6D6 detectors for capture cross section measurements at GELINA

Author

Sage, C., primary, Berthoumieux, E., additional, Bouland, O., additional, Gunsing, F., additional, Plompen, A. J.M., additional, Schillebeeckx, P., additional, Siegler, P., additional, van Opstal, N., additional, and Wynants, R., additional

Published

2007

31. Neutron transmission and capture of 241Am.

Author

Lampoudis, C., Kopecky, S., Plompen, A., Schillebeeckx, P., Wynants, R., Gunsing, F., Sage, C., Bouland, O., and Noguere, G.

Subjects

NEUTRONS, TIME-of-flight mass spectrometry, INSTITUTE for Reference Materials & Measurements (Geel, Belgium), GAMMA rays

Abstract

A set of neutron transmission and capture experiments based on the Time Of Flight (TOF) technique, were performed in order to determine the 241Am capture cross section in the energy range from 0.01 eV to 1 keV. The GELINA facility of the Institute for Reference Materials and Measurements (IRMM) served as the neutron source. A pair of C6D6 liquid scintillators was used to register the prompt gamma rays emerging from the americium sample, while a Li-glass detector was used in the transmission setup. Results from the capture and transmission data acquired are consistent with each other, but appear to be inconsistent with the evaluated data files. Resonance parameters have been derived for the data up to the energy of 100 eV. [ABSTRACT FROM AUTHOR]

Published

2013

32. New measurements on isobaric fission product yields and mean kinetic energy for 241Pu thermal neutron-induced fission

Author

Julien-Laferrière Sylvain, Kessedjian Grégoire, Serot Olivier, Chebboubi Abdelaziz, Bernard David, Blanc Aurélien, Köster Ulli, Litaize Olivier, Materna Thomas, Meplan Olivier, Rapala Michal, and Sage Christophe

Subjects

Physics, QC1-999

Abstract

Nuclear fission yields data measurements for thermal neutron induced fission of 241Pu have been carried out at the Institut Laue Langevin (ILL) in Grenoble, using the Lohengrin mass spectrometer. Mass, isotopic and isomeric yields have been extracted for the last measurements. A focus is given in this document to the mass yield results which are obtained for almost the entire heavy peak and most of the light high yields masses, along with the covariance matrix. The mean kinetic energy as a function of the fission product mass has also been extracted from the measurements. The total mean kinetic energy pre and post neutron emission have been assessed and compared to other works showing a rather good agreement.

Published

2018

33. Theoretical investigation of fission fragment kinetic energy distributions in the symmetric mass region for 233U(nth,f)

Author

Chebboubi Abdelaziz, Serot Olivier, Kessedjian Grégoire, Litaize Olivier, Blanc Aurelien, Bernard David, Faust Herbert, Julien-Laferrière Sylvain, Köster Ulli, Letourneau Alain, Materna Thomas, Méplan Olivier, Mutti Paolo, Rapala Michal, and Sage Christophe

Subjects

Physics, QC1-999

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.

Published

2017

34. Measurement of fission yields from the 241Am(2nth,f) reaction at the Lohengrin Spectrometer

Author

Amouroux Ch., Blanc A., Bidaud A., Capellan N., Chabod S., Chebboubi A., Faust H., Kessedjian G., Köster U., Lemaitre J.-F., Letourneau A., Martin F., Materna T., Panebianco S., Sage Ch., and Serot O.

Subjects

Physics, QC1-999

Abstract

The study of fission yields has a major impact on the characterization and understanding of the fission process and is mandatory for reactor applications. While the yields are known for the major actinides (235U, 239Pu) in the thermal neutron-induced fission, only few measurements have been performed on 242Am. This paper presents the results of a measurement at the Lohengrin mass spectrometer (ILL, France) on the reaction 241Am(2nth,f): a total of 41 mass yields in the light and the heavy peaks have been measured and compared with the fission process simulation code GEF. Modus operandi and first results of a second experiment performed in May 2013 on the same reaction but with the goal of extracting the isotopic yields are presented as well: 8 mass yields were re-measured and 18 isotopic yields have been investigated and are being analyzed. Results concerning the kinetic energy and its comparison with the GEF Code are also presented in this paper.

Published

2013

35. Measurement of mass yields from the 241Am(2nth,f) reaction at the Lohengrin Spectrometer

Author

Köster U., Kessedjian G., Faust H., Chabod S., Capellan N., Bidaud A., Panebianco S., Amouroux Ch., Letourneau A., Martin F., Materna T., Sage Ch., and Serot O.

Subjects

Physics, QC1-999

Abstract

The study of fission yields has a major impact on the characterization and understanding of the fission process and is mandatory for reactor applications. While the yields are known for the major actinides (235U, 239Pu) in the thermal neutron-induced fission, only few measurements have been performed on 242Am. The interest of 242Am concerns the reduction of radiotoxicity of 241Am in nuclear wastes using transmutation reactions. This paper presents the measurement of the fission mass yields from the reaction 241Am(2nth,f) performed at the Lohengrin mass spectrometer (ILL, France) for both the light and the heavy peaks: a total of 41 mass yields have been measured. The experiment was also meant to determine whether there is a difference in mass yields between the isomeric state and the ground state as it exists in fission and capture cross sections. The method used to address this question is based on a repeated measurement of a set of fission mass yields as a function of the ratio between the 242gAm and the 242mAm fission rates. The presented experiment is also a first step towards the measurement of the isotopic fission yields of 242Am.

Published

2013