Your search keyword '"Vidali M"' showing total 18 results

1. Fission-fragment total kinetic energy and mass yields for neutron-induced fission of 235U and 238U with En =200 keV – 30 MeV

Author

Duke D.L., Tovesson F., Brys T., Geppert-Kleinrath V., Hambsch F.-J., Laptev A., Meharchand R., Manning B., Mayorov D., Meierbachtol K., Mosby S., Perdue B., Richman D., Shields D., and Vidali M.

Subjects

Physics, QC1-999

Abstract

The average Total Kinetic Energy (TKE) release and fission-fragment yields in neutron-induced fission of 235U and 238U was measured using a Frisch-gridded ionization chamber. These observables are important nuclear data quantites that are relevant to applications and for informing the next generation of fission models. The measurements were performed a the Los Alamos Neutron Science Center and cover En = 200 keV – 30 MeV. The double-energy (2E) method was used to determine the fission-fragment yields and two methods of correcting for prompt-neutron emission were explored. The results of this study are correlated mass and TKE data.

Published

2017

2. The cross section functions for neutron induced reactions with Rhenium in the energy range 13.0–19.5 MeV

Author

Jovančević N., Daraban L., Stroh H., Oberstedt S., Hult M., Bonaldi C., Geerts W., Hambsch F.-J., Lutter G., Marissens G., and Vidali M.

Subjects

Physics, QC1-999

Abstract

The technique for measuring neutron activation cross-sections using wide energy neutron beams (NAXSUN) was recently developed at JRC-Geel . This method is based on the detection of the gamma activity induced by the activation of the samples in different but overlapping neutron fields and following an unfolding procedure. In the present work, measurements of the cross-section functions by the NAXSUN technique for the (n,a), (n,2n), (n,p) and (n,3n) reactions on rhenium isotopes 185Re and 187Re were performed. The results are the first experimental data for the mentioned reaction cross-sections in the energy range 13.0–19.5 MeV. The obtained data are of interest for possible applications of Re in nuclear technology and medicine.

Published

2017

3. Neutron-induced fission cross section of 242Pu from 15 MeV to 20 MeV

Author

Jovančević N., Salvador-Castineira P., Daraban L., Vidali M., Heyse J., Oberstedt S., Hambsch F.-J., Bonaldi C., and Geerts W.

Subjects

Physics, QC1-999

Abstract

Accurate nuclear-data needs in the fast-neutron-energy region have been recently addressed for the development of next generation nuclear power plants (GEN-IV) by the OECD Nuclear Energy Agency (NEA). This sensitivity study has shown that of particular interest is the 242Pu(n,f) cross section for fast reactor systems. Measurements have been performed with quasi-monoenergetic neutrons in the energy range from 15 MeV to 20 MeV produced by the Van de Graaff accelerator of the JRC-Geel. A twin Frisch-grid ionization chamber has been used in a back-to-back configuration as fission fragment detector. The 242Pu(n,f) cross section has been normalized to 238U(n,f) cross section data. The results were compared with existing literature data and show acceptable agreement within 5%.

Published

2017

4. Analysis of prompt fission neutrons in 235U(nth,f) and fission fragment distributions for the thermal neutron induced fission of 234U

Author

Al-Adili A., Tarrío D., Hambsch F.-J., Göök A., Jansson K., Solders A., Rakopoulos V., Gustafsson C., Lantz M., Mattera A., Oberstedt S., Prokofiev A.V., Vidali M., Österlund M., and Pomp S.

Subjects

Physics, QC1-999

Abstract

This paper presents the ongoing analysis of two fission experiments. Both projects are part of the collaboration between the nuclear reactions group at Uppsala and the JRC-IRMM. The first experiment deals with the prompt fission neutron multiplicity in the thermal neutron induced fission of 235U(n,f). The second, on the fission fragment properties in the thermal fission of 234U(n,f). The prompt fission neutron multiplicity has been measured at the JRC-IRMM using two liquid scintillators in coincidence with an ionization chamber. The first experimental campaign focused on 235U(nth,f) whereas a second experimental campaign is foreseen later for the same reaction at 5.5 MeV. The goal is to investigate how the so-called sawtooth shape changes as a function of fragment mass and excitation energy. Some harsh experimental conditions were experienced due to the large radiation background. The solution to this will be discussed along with preliminary results. In addition, the analysis of thermal neutron induced fission of 234U(n,f) will be discussed. Currently analysis of data is ongoing, originally taken at the ILL reactor. The experiment is of particular interest since no measurement exist of the mass and energy distributions for this system at thermal energies. One main problem encountered during analysis was the huge background of 235U(nth,f). Despite the negligible isotopic traces in the sample, the cross section difference is enormous. Solution to this parasitic background will be highlighted.

Published

2016

5. Towards high accurate neutron-induced fission cross sections of 240,242Pu: Spontaneous fission half-lives

Author

Salvador-Castiñeira P., Bryś T., Eykens R., Hambsch F.-J., Moens A., Oberstedt S., Pretel C., Sibbens G., Vanleeuw D., and Vidali M.

Subjects

Physics, QC1-999

Abstract

Fast spectrum neutron-induced fission cross sections of transuranic isotopes are being of special demand in order to provide accurate data for the new GEN-IV nuclear power plants. To minimize the uncertainties on these measurements accurate data on spontaneous fission half-lives and detector efficiencies are a key point. High α-active actinides need special attention since the misinterpretation of detector signals can lead to low efficiency values or underestimation in fission fragment detection. In that context, 240,242Pu isotopes have been studied by means of a Twin Frisch-Grid Ionization Chamber (TFGIC) for measurements of their neutron-induced fission cross section. Gases with different drift velocities have been used, namely P10 and CH4. The detector efficiencies for both samples have been determined and improved spontaneous fission half-life values were obtained.

Published

2013

6. Prompt fission γ-rays from the reactions 252Cf(SF) and 235U(nth, f) – new data

Author

Oberstedt S., Belgya T., Billnert R., Bryś T., Geerts W., Hambsch F.-J., Kis Z., Martinez T., Oberstedt A., Szentmiklosi L., and Vidali M.

Subjects

Physics, QC1-999

Abstract

We present new spectral data of prompt γ-ray emission from the spontaneous fission of 252Cf. This work was performed in direct response to an OECD/NEA high priority data request. We discuss the impact of our new data on evaluated nuclear data tables not only for this nuclide, but also for 238U and 241Pu, which are always produced in a reactor. Furthermore, we will show results from our investigation of prompt γ-ray emission from the reaction 235 U(nth, f), measured in at the Centre for Energy Research of the Hungarian Academy of Sciences in Budapest, Hungary. Spectral data obtained with three different detectors are consistent and led to an uncertainty on total energy and multiplicity considerably smaller than requested by the OECD/NEA.

Published

2013

7. Prompt fission neutron emission: Problems and challenges

Author

Hambsch F.-J., Bryś T., Gamboni T., Geerts W., Göök A., Matei C., Oberstedt S., and Vidali M.

Subjects

Physics, QC1-999

Abstract

This paper presents some of the challenges ahead of us even after 75 years of the discovery of the fission process and large progress made since then. The focus is on application orientation, which requires improved measurements on fission cross-sections and neutron and γ-ray multiplicities. Experimental possibilities have vastly improved the past decade leading to developments of highly sophisticated detector systems and the use of digital data acquisition and signal processing. The development of innovative fast nuclear reactor technology needs improved respective nuclear data. Advancements in theoretical modelling also require better experimental data. Theory has made progress in calculating fission fragment distributions (i.e. GEF code) as well as prompt neutron and γ-ray emission to catch up with the improved experiments.

Published

2013

8. Performances of X-shooter, the new wide-band intermediate resolution spectrograph at the VLT

Author

Vernet, J., Dekker, H., D'Odorico, S., Mason, E., Di Marcantonio, P., Downing, M., Elswijk, E., Finger, G., Fischer, G., Kerber, F., Kern, L., Lizon, J.-L., Lucuix, C., Mainieri, V., Modigliani, A., Patat, F., Ramsay, S., Santin, P., Vidali, M., Groot, P., Guinouard, I., Hammer, F., Kaper, L., Kjærgaard-Rasmussen, P., Navarro, R., Randich, S., Zerbi, F., McLean, I.S., Ramsay, S.K., Takami, H., High Energy Astrophys. & Astropart. Phys (API, FNWI), and Low Energy Astrophysics (API, FNWI)

Subjects

Physics, Optics, business.industry, Resolution (electron density), Single shot, Wide band, business, Spectrograph

Abstract

X-shooter is the first second-generation instrument newly commissioned a the VLT. It is a high efficiency single target intermediate resolution spectrograph covering the range 300 - 2500 nm in a single shot. We summarize the main characteristics of the instrument and present its performances as measured during commissioning and the first months of science operations.

Published

2010

9. Absolute cross section measurements of 238U(n,f) and 237Np(n,f) in the neutron energy range 1-2.4 MeV

Author

Salvador-Castiñeira Paula, Hambsch Franz-Josef, Göök Alf, Vidali Marzio, Hawkes Nigel P., Oberstedt Stephan, Roberts Neil J., Taylor Graeme C., and Thomas David J.

Subjects

Physics, QC1-999

Abstract

New standard (n,f) cross sections other than 235U are important to study the relevant cross sections for Generation-IV power plants. A specific need for such standards is for performing new experiments with quasimonoenergetic neutron beams, such as those produced by Van de Graaf accelerators. Neutrons down-scattered to low energies in the experimental environment, so called room-return, become relevant for this type of measurements. Hence, a standard (n,f) cross section with a fission threshold is of great interest, in order to suppress the contribution from room-return background. For this reason we have performed two experiments at the VDG of the National Physical Laboratory to measure absolutely the (n,f) cross sections of 235U, 238U and 237Np in the fast neutron energy region. Our preliminary results are in agreement with the most up-to-date evaluations.

Published

2019

10. Prompt fissionγ-ray characteristics from neutron-induced fission on 239Pu and the time-dependence of prompt-γray emission

Author

Gatera Angélique, Göök Alf, Hambsch Franz-Josef, Moens André, Oberstedt Andreas, Oberstedt Stephan, Sibbens Goedele, Vanleeuw David, and Vidali Marzio

Subjects

Physics, QC1-999

Abstract

Recent years have seen an increased interest in prompt fission γ-ray (PFG) measurements motivated by a high priority request of the OECD/NEA for high precision data, mainly for the nuclear fuel isotopes 235U and 239Pu. Our group has conducted a PFG measurement campaign using state-of-the-art lanthanum halide detectors for all the main actinides to a precision better than 3%. The experiments were performed in a coincidence setup between a fission trigger and γ-ray detectors. The time-of-flight technique was used to discriminate photons, traveling at the speed of light, and prompt fission neutrons. For a full rejection of all neutrons below 20 MeV, the PFG time window should not be wider than a few nanoseconds. This window includes most PFG, provided that no isomeric states were populated during the de-excitation process. When isomeric states are populated, PFGs can still be emitted up to 1 yus after the instant of fission or later. To study these γ-rays, the detector response to neutrons had to be determined and a correction had to be applied to the γ-ray spectra. The latest results for PFG characteristics from the reaction 239Pu(nth,f) will be presented, together with an analysis of PFGs emitted up to 200 ns after fission in the spontaneous fission of 252Cf as well as for thermal-neutron induced fission on 235U and 239Pu. The results are compared with calculations in the framework of the Hauser-Feshbach Monte Carlo code CGMF and FIFRELIN.

Published

2018

11. Studying fission neutrons with 2E-2v and 2E

Author

Al-Adili Ali, Jansson Kaj, Tarrío Diego, Hambsch Franz-Josef, Göök Alf, Oberstedt Stephan, Olivier Frégeau Marc, Gustavsson Cecilia, Lantz Mattias, Mattera Andrea, Prokofiev Alexander V., Rakopoulos Vasileios, Solders Andreas, Vidali Marzio, Österlund Michael, and Pomp Stephan

Subjects

Physics, QC1-999

Abstract

This work aims at measuring prompt-fission neutrons at different excitation energies of the nucleus. Two independent techniques, the 2E-2v and the 2E techniques, are used to map the characteristics of the mass-dependent prompt fission neutron multiplicity, v(A), when the excitation energy is increased. The VERDI 2E-2v spectrometer is being developed at JRC-GEEL. The Fission Fragment (FF) energies are measured using two arrays of 16 silicon (Si) detectors each. The FFs velocities are obtained by time-of-flight, measured between micro-channel plates (MCP) and Si detectors. With MCPs placed on both sides of the fission source, VERDI allows for independent timing measurements for both fragments. 252Cf(sf) was measured and the present results revealed particular features of the 2E-2v technique. Dedicated simulations were also performed using the GEF code to study important aspects of the 2E-2v technique. Our simulations show that prompt neutron emission has a non-negligible impact on the deduced fragment data and affects also the shape of v(A). Geometrical constraints lead to a total-kinetic energy-dependent detection efficiency. The 2E technique utilizes an ionization chamber together with two liquid scintillator detectors. Two measurements have been performed, one of 252Cf(sf) and another one of thermal-neutron induced fission in 235U(n,f). Results from 252Cf(sf) are reported here.

Published

2018

12. Neutron-multiplicity experiments for enhanced fission modelling

Author

Al-Adili Ali, Tarrío Diego, Hambsch Franz-Josef, Göök Alf, Jansson Kaj, Solders Andreas, Rakapoulos Vasileios, Gustavsson Cecilia, Lantz Mattias, Mattera Andrea, Oberstedt Stephan, Prokofiev Alexander V., Sundén Erik A., Vidali Marzio, Österlund Michael, and Pomp Stephan

Subjects

Physics, QC1-999

Abstract

The nuclear de-excitation process of fission fragments (FF) provides fundamental information for the understanding of nuclear fission and nuclear structure in neutron-rich isotopes. The variation of the prompt-neutron multiplicity, ν(A), as a function of the incident neutron energy (En) is one of many open questions. It leads to significantly different treatments in various fission models and implies that experimental data are analyzed based on contradicting assumptions. One critical question is whether the additional excitation energy (Eexc) is manifested through an increase of ν(A) for all fragments or for the heavy ones only. A systematic investigation of ν(A) as a function of En has been initiated. Correlations between prompt-fission neutrons and fission fragments are obtained by using liquid scintillators in conjunction with a Frisch-grid ionization chamber. The proof-of-principle has been achieved on the reaction 235U(nth,f) at the Van De Graff (VdG) accelerator of the JRC-Geel using a fully digital data acquisition system. Neutrons from 252Cf(sf) were measured separately to quantify the neutron-scattering component due to surrounding shielding material and to determine the intrinsic detector efficiency. Prelimenary results on ν(A) and spectrum in correlation with FF properties are presented.

Published

2017

13. New prompt fission gamma-ray spectral data from 239Pu(nth, f) in response to a high priority request from OECD Nuclear Energy Agency

Author

Gatera Angélique, Belgya Tamás, Geerts Wouter, Göök Alf, Hambsch Franz-Josef, Lebois Matthieu, Maróti Boglárka, Oberstedt Stephan, Oberstedt Andreas, Postelt Frederik, Qi Liqiang, Szentmiklósi Laszló, Vidali Marzio, and Zeiser Fabio

Subjects

Physics, QC1-999

Abstract

Benchmark reactor calculations have revealed an underestimation of γ-heat following fission of up to 28%. To improve the modelling of new nuclear reactors, the OECD/NEA initiated a nuclear data High Priority Request List (HPRL) entry for the major isotopes (235U, 239Pu). In response to that HPRL entry, we executed a dedicated measurement program on prompt fission γ-rays employing state-of-the-art lanthanum bromide (LaBr3) detectors with superior timing and good energy resolution. Our new results from 252Cf(sf), 235U(nth,f) and 241Pu(nth,f) provide prompt fission γ-ray spectra characteristics : average number of photons per fission, average total energy per fission and mean photon energy; all within 2% of uncertainty. We present preliminary results on 239Pu(nth,f), recently measured at the Budapest Neutron Centre and supported by the CHANDA Trans-national Access Activity, as well as discussing our different published results in comparison to the historical data and what it says about the discrepancy observed in the benchmark calculations.

Published

2017

14. 10B(n,α)7Li and 10B(n,α1γ)7Li cross section data up to 3 MeV incident neutron energy

Author

Bevilacqua Riccardo, Hambsch Franz-Josef, Vidali Marzio, Ruskov Ivan, and Lamia Livio

Subjects

Physics, QC1-999

Abstract

The 10B(n,α) reaction cross-section is a well-established neutron cross-section standard for incident neutron energies up to 1 MeV. However, above this energy limit there are only scarce direct (n,α) measurements available and these few experimental data are showing large inconsistencies with each other. These discrepancies are reflected in the evaluated data libraries: ENDF/B-VII.1, JEFF-3.1.2 and JENDL-4.0 are in excellent agreement up to 100 keV incident neutrons, whereas the 10B(n,α) data in the different libraries show large differences in the MeV region. To address these inconsistencies, we have measured the cross section of the two branches of the 10B(n,α) reaction for incident neutron energies up to 3 MeV. We present here the 10B(n,α) and the 10B(n,α1γ) reactions cross section data, their branching ratio and the total 10B(n,α) reaction cross section. The measurements were conducted with a dedicated Frisch-grid ionization chamber installed at the GELINA pulsed neutron source of the EC-JRC. We compare our results with existing experimental data and evaluations.

Published

2017

15. Measurement of the 6Li(n,α)t neutron standard cross-section at the GELINA facility

Author

Jansson Kaj, Al-Adili Ali, Bevilacqua Riccardo, Gustavsson Cecilia, Hambsch Franz-Josef, Pomp Stephan, and Vidali Marzio

Subjects

Physics, QC1-999

Abstract

The 6Li(n,α)t reaction cross-section is an established standard due to its relatively high cross-section as well as its high Q-value. However, it is only considered a neutron standard up to 1 MeV, because in the neutron energy region 1–3 MeV there exist discrepancies of several per cents between recent measurements [1, 2] and evaluated data files [3]. It has been speculated [4] that neglecting of the particle leaking effect might be part of the explanation why there is a disagreement in this region. Based on R-matrix calculations, in the region around 2 MeV, one also expects three excitation levels of 7Li to significantly influence the cross section [5]. In order to resolve these discrepancies, we perform measurements at the GELINA facility at JRC-Geel with two Frisch-gridded ionisation chambers. The 6Li(n,α)t cross section is measured relative to the 235U(n,f) standard. In order to solve previous encountered problems [6], the setup has been modified and moved to a new flight path station. In this proceeding we show that several problems have been eliminated and discuss possible solutions to newly arisen problems, due to the changed experimental conditions. Preliminary results from new data taken during 2016 with the updated setup are presented.

Published

2017

16. Absolute and relative cross section measurements of 237Np(n,f) and 238U(n,f) at the National Physical Laboratory

Author

Salvador-Castiñeira Paula, Hambsch Franz-Josef, Göök Alf, Vidali Marzio, Hawkes Nigel P., Roberts Neil J., Taylor Graeme C., and Thomas David J.

Subjects

Physics, QC1-999

Abstract

Cross section measurements in the fast energy region are being demanded as one of the key ingredients for modelling Generation-IV nuclear power plants. However, in facilities where there are no time-of-flight possibilities or it is not convenient to use them, using the 235U(n,f) cross section as a benchmark would require a careful knowledge of the room scatter in the experimental area. In this paper we present measurements of two threshold reactions, 238U(n,f) and 237Np(n,f), that could become a standard between their fission threshold and 2.5 MeV, if the discrepancies shown in the evaluations and in some experimental data can be solved. The preliminary results are in agreement with the present ENDF/B-VII.1 evaluation.

Published

2017

17. Measurement of the 6Li(n,α) neutron standard cross-section at the GELINA facility

Author

Jansson Kaj, Al-Adili Ali, Bevilacqua Riccardo, Gustavsson Cecilia, Hambsch Franz-Josef, Pomp Stephan, and Vidali Marzio

Subjects

Physics, QC1-999

Abstract

The 6Li(n,α) reaction cross-section is commonly used as a reference cross section. However, it is only considered a neutron standard up to 1MeV. For higher energies, there are discrepancies of several per cents between recent measurements and evaluated data files. In order to extend and establish 6Li(n,α) as a neutron standard above 1MeV these discrepancies must be resolved. Our measurement at the GELINA facility at JRC-IRMM in Geel, Belgium is ongoing. We are using a double twin Frisch-grid setup to detect both α-particles from two 6Li targets and fission products from two 235U reference targets. Our targets have thick backings but are employed in pairs, one forward facing and one backward facing. In this way we still cover, in principle, a solid angle of 4π. We present some preliminary results showing that the existing cross-section data is well reproduced around the resonance at 240 keV. The final data taking will start in the beginning of 2016, when the GELINA facility goes online again after a few months of shut down.

Published

2016

18. Development of a flexible MAPMT photon-counting read-out system

Author

A. Gregorio, M. Bari, G. Giannini, M. Vidali, Davide Fontanarosa, A. Monfardini, Vidali, M, Bari, M, Fontanarosa, D, Giannini, G, and Gregorio, Anna

Subjects

Physics, Nuclear and High Energy Physics, read-out system, EUSO, Ultra-high-energy cosmic rays, Photomultipliers read-out system, Ultra-high-energy cosmic rays, Astrophysics::High Energy Astrophysical Phenomena, media_common.quotation_subject, Astrophysics::Instrumentation and Methods for Astrophysics, EUSO, Astronomy, Cosmic ray, Astrophysics, Space observatory, Photon counting, Universe, On board, Development (topology), Spitzer Space Telescope, International Space Station, Photomultipliers read-out system, photon counting, MAMPT, Instrumentation, media_common

Abstract

The design and the attained performances of a read-out system for a 64-channel Hamamatsu Multi Anode Photo Multipliers (MAPMT) are discussed. The system has been developed in the framework of the Extreme Universe Space Observatory (EUSO) experiment. EUSO is a space telescope devoted to the study of the ultra-high-energy cosmic rays, proposed for accommodation on board the International Space Station (ISS). This paper reports the tests on the read-out system and the optimization of its main parameters. A quick overview of some other possible applications of the system is also given.

Published

2005