Investigation of the surrogate-reaction method via the simultaneous measurement of gamma-emission and fission probabilities

Jurado, B.; Marini, P.; Mathieu, L.; Aïche, M.; Czájkowski, S.; Tsekhanovich, I.; Audouin, L.; Boutoux, G.; Denis-Petit, D.; Guttormsen, M.; Kessedjian, G.; Lebois, M.; Méot, V.; Oberstedt, S.; Roig, O.; Sérot, O.; Tassan‐Got, L.; Wilson, J.

doi:10.1051/epjconf/201714611006

Cited by 5 publications

(5 citation statements)

References 12 publications

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“…Promising results off the surrogate-reaction method were obtained consistently in terms of cross sections and surrogate probabilities according to both fission and γ channels; thanks to the recent simultaneous fission and γ channels 238 U( 3 He, 4 He) 237 U * surrogate measurements [12]. However, spin-parity entrance population distribution calculations remain a genuine challenge that needs special attention in future developments of Present (3He,4He fission) using Thompson deformed Present (3He,4He gamma) using Thompson deformed Present (t,pf) AVXSF simulation using Back (1974) S N Figure 5.…”

Section: Summary and Perspectivesmentioning

confidence: 87%

“…However, spin-parity entrance population distribution calculations remain a genuine challenge that needs special attention in future developments of Present (3He,4He fission) using Thompson deformed Present (3He,4He gamma) using Thompson deformed Present (t,pf) AVXSF simulation using Back (1974) S N Figure 5. 237 U * fission (solid curves) and γ (dashed curve) surrogate-like probabilities computed with AVX SF and compared with preliminary 238 U( 3 He, 4 He) 237 U * surrogate data (circles) from P. Marini, B. Jurado et al [12] and (t,pf) data (diamonds) from Britt and Cramer [16].…”

Section: Summary and Perspectivesmentioning

confidence: 99%

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Monte Carlo simulation of γ and fission transfer-induced probabilities using extended 𝓡-matrix theory: Application to the ²³⁷U^∗ system

Bouland

Jurado

2017

EPJ Web Conf.

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Abstract. This paper deals with simultaneous neutron-induced average partial cross sections and surrogatelike probability simulations over several excitation and de-excitation channels of the compound nucleus. Present calculations, based on one-dimensional fission barrier extended R-matrix theory using Monte Carlo samplings of both first and second well resonance parameters, avoid the surrogate-reaction method historically taken for surrogate data analyses that proved to be very poor in terms of extrapolated neutron-induced capture cross sections. Present theoretical approach is portrayed and subsequent results can be compared for the first time with experimental γ -decay probabilities; thanks to brand new simultaneous 238 U( 3 He, 4 Heγ ) and 238 U( 3 He, 4 He f) surrogate measurements. Future integration of our strategy in standard neutron cross section data evaluation remains tied to the developments made in terms of direct reaction population probability calculations. Context and objectivesThe idea to supplement neutron-induced cross-section data for actinides and higher transuranic nuclides with particle-transfer-induced reactions has been raised a long time ago [1]. Over the years, a variety of surrogate vectors have been used as stripping (d,p) and pickup (p,d) reactions, ( 3 He,p), ( 3 He,d) and ( 3 He,t) chargeexchange reactions or even two-neutron transfer reactions as (t,p) and (p,t) reactions. Analytical calculations of these measured direct-reaction fission probabilities were performed under several simplifications contained in the so-called surrogate-reaction method [2]. Early promising comparisons [1] made between extrapolated neutron fission cross sections and cross sections directly measured by neutron spectroscopy led to agreement within 10% to 20% at neutron energy above the nucleus pairing energy although exhibiting larger deviations at lower energies. Major limitations in surrogate extrapolation were promptly noticed [1,3] with the difficulty to estimate the compound nucleus formation cross section by neutron absorption, the possible influence of angular momentum differences between neutron capture and direct reactions and the validity of the Weisskopf-Ewing (WE) hypothesis related to fission decay probability spin-parity independence [4].A decade ago, surrogate reactions received renewed interest in terms either of simulation [5,6] or experimental investigation (initiated by study [7]; reviewed by Ref. [8]) to infer in addition to fission, neutron-induced capture cross sections. Newly measured decay capture probabilities were readily analyzed within the surrogatereaction method that proved to be very poor in terms of extrapolated neutron-induced capture cross sections [2]. a e-mail: olivier.bouland@cea.fr Indeed the surrogate-reaction method was understandable in the seventies because of computer limitations, lack of precise information on nuclear level densities across the deformation and difficulties for achieving confident optical model calculations over a large range of nuclides. Nowada...

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Section: Summary and Perspectivesmentioning

confidence: 87%

Section: Summary and Perspectivesmentioning

confidence: 99%

Monte Carlo simulation of γ and fission transfer-induced probabilities using extended 𝓡-matrix theory: Application to the ²³⁷U^∗ system

Bouland

Jurado

2017

EPJ Web Conf.

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“…Heavy-ion storage rings provide radioactive beams of extraordinary quality and enable the use of ultrathin, windowless targets. Therefore, in the longer term we will combine surrogate reactions and storage rings to simultaneously measure the decay probabilities of all opendecay channels for many short-lived nuclei with high precision [47].…”

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confidence: 99%

Simultaneous Determination of Neutron-Induced Fission and Radiative Capture Cross Sections from Decay Probabilities Obtained with a Surrogate Reaction

et al. 2020

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Reliable neutron-induced-reaction cross sections of unstable nuclei are essential for nuclear astrophysics and applications but their direct measurement is often impossible. The surrogate-reaction method is one of the most promising alternatives to access these cross sections. In this work, we successfully applied the surrogate-reaction method to infer for the first time both the neutron-induced fission and radiative capture cross sections of 239 Pu in a consistent manner from a single measurement. This was achieved by combining simultaneously measured fission and γ-emission probabilities for the 240 Puð 4 He; 4 He 0 Þ surrogate reaction with a calculation of the angular-momentum and parity distributions populated in this reaction. While other experiments measure the probabilities for some selected γ-ray transitions, we measure the γ-emission probability. This enlarges the applicability of the surrogate-reaction method.

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“…The cells were operational after baking. This and the possibility to use them as counters in coincidence measurements, makes solar cells an interesting option to be considered in our future measurements at storage rings [12].…”

Section: Motivationmentioning

confidence: 99%

“…Some years later, Ajitanand et al highlighted the solar cells radiation hardness as well as their capability to detect fission fragments in an intense background of light charged nuclei [2]. In 1987, Liatard et al exposed solar cells to scattered ions of 12 C up to energies of 240 MeV revealing a linear energy response just up to 80 MeV [3]. This study also measured the time resolution between two cells of 10 mm 2 to be 12 ns FWHM and pointed out the dependence of the time response on the cell size.…”

Section: Introductionmentioning

confidence: 99%

First investigation of the response of solar cells to heavy ions above 1 AMeV

Henriques

Jurado

Pibernat

et al. 2020

Nuclear Instruments and Methods in Physics Research Section A:

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Solar cells have been used since several decades for the detection of fission fragments at about 1 AMeV. The advantages of solar cells regarding their cost (few euros) and radiation damage resistance make them an interesting candidate for heavy ion detection and an appealing alternative to silicon detectors. A first exploratory measurement of the response of solar cells to heavy ions at energies above 1 AMeV has been performed at the GANIL facility, Caen, France. Such measurements were performed with 84 Kr and 129 Xe beams ranging from 7 to 15 AMeV. The energy and time response of several types of solar cells were studied. The best performance was observed for cells of 10 x10 mm 2 , with an energy and time resolution of σ(E)/E=1.4% and 3.6 ns (FWHM), respectively. Irradiations at rates from a few hundred to 10 6 particles per second were also performed to investigate the behavior of the cells with increasing intensity.

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Investigation of the surrogate-reaction method via the simultaneous measurement of gamma-emission and fission probabilities

Cited by 5 publications

References 12 publications

Monte Carlo simulation of γ and fission transfer-induced probabilities using extended 𝓡-matrix theory: Application to the ²³⁷U^∗ system

Monte Carlo simulation of γ and fission transfer-induced probabilities using extended 𝓡-matrix theory: Application to the ²³⁷U^∗ system

Simultaneous Determination of Neutron-Induced Fission and Radiative Capture Cross Sections from Decay Probabilities Obtained with a Surrogate Reaction

First investigation of the response of solar cells to heavy ions above 1 AMeV

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Investigation of the surrogate-reaction method via the simultaneous measurement of gamma-emission and fission probabilities

Cited by 5 publications

References 12 publications

Monte Carlo simulation of γ and fission transfer-induced probabilities using extended 𝓡-matrix theory: Application to the 237U∗ system

Monte Carlo simulation of γ and fission transfer-induced probabilities using extended 𝓡-matrix theory: Application to the 237U∗ system

Simultaneous Determination of Neutron-Induced Fission and Radiative Capture Cross Sections from Decay Probabilities Obtained with a Surrogate Reaction

First investigation of the response of solar cells to heavy ions above 1 AMeV

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Monte Carlo simulation of γ and fission transfer-induced probabilities using extended 𝓡-matrix theory: Application to the ²³⁷U^∗ system

Monte Carlo simulation of γ and fission transfer-induced probabilities using extended 𝓡-matrix theory: Application to the ²³⁷U^∗ system