Andreas Oberstedt scite author profile

We present results from new spectral prompt γ-ray measurements from the spontaneous fission of 252 Cf. Apart from one recent experiment, about four decades have passed since the last dedicated experiments were reported in the literature. Hence, there was a need for a revision. We have measured prompt fission γ rays with both cerium-doped LaBr 3 and CeBr 3 scintillation detectors, both of which exhibit excellent timing and good energy resolution. The emission yield was determined to be ν γ = (8.30 ± 0.08)/fission and ν γ = (8.31 ± 0.10)/fission, with the average energy of γ = (0.80 ± 0.01) MeV and γ = (0.80 ± 0.01) MeV and total energy of E γ,tot = (6.64 ± 0.08) MeV and E γ,tot = (6.65 ± 0.12) MeV, with the LaBr 3 and CeBr 3 detectors, respectively. Since the results from the two detectors are in excellent agreement and confirm the historical data, but not those in the present evaluated nuclear data files, we strongly recommend an update.

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Improved values for the characteristics of prompt-fissionγ-ray spectra from the reaction235U(nth,
Oberstedt
¹
,
Belgya
²
,
Billnert
³

et al. 2013
Phys. Rev. C

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In this paper we present results from measurements of prompt γ rays from the thermal neutron induced fission of 235 U. Photons were measured in coincidence with fission fragments with cerium-doped LaCl 3 and LaBr 3 as well as CeBr 3 scintillation detectors, which offer an intriguing combination of excellent timing resolution and good resolving power. The spectra measured with all employed detectors are in excellent agreement with respect to their shapes. Characteristic parameters were extracted for a γ-energy range from 0.1 to 6.0 MeV and the results obtained with several detectors were averaged. From that, the average emission yield of prompt-fission γ rays was determined to be ν γ = (8.19 ± 0.11) per fission, the average energy per photon to be γ = (0.85 ± 0.02) MeV, and the total energy to be E γ,tot = (6.92 ± 0.09) MeV. The uncertainties are much lower than the 7.5% requested for the modeling of advanced nuclear reactor cores. Estimating the influence of γ rays with energies between 6 and 10 MeV on the values determined in this work revealed a negligible deviation of the order of the found uncertainties.

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High-precision prompt-γ-ray spectral data from the reactionPu241(nth,
Oberstedt
¹
,
Billnert
²
,
Belgya
³

et al. 2014
Phys. Rev. C
43
11
37
0
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In this paper we present results from the first high-precision prompt-γ-ray spectral measurements from the reaction 241 Pu(n th , f). Apart from one recent experiment, no data are reported in the literature for this fissioning system, which motivated a new dedicated experiment. We have measured prompt-fission γ rays with three cerium-doped LaBr 3 (two 5.08 cm × 5.08 cm and one 7.62 cm × 7.62 cm) and one CeBr 3 (5.08 cm × 5.08 cm) scintillation detectors, which all exhibit excellent timing and good energy resolution. The average γ-ray multiplicity was determined to be ν γ = (8.21 ± 0.09) per fission, the average energy to be γ = (0.78 ± 0.01) MeV, and the total energy to be E γ,tot = (6.41 ± 0.06) MeV as the weighted average from all detectors. Since the results from all detectors are in excellent agreement, and the total released γ energy is modestly higher than the one in the present evaluated nuclear data files, we suspect that the underestimation of the prompt-γ heating in nuclear reactors is due to fast-neutron-induced fission on 238 U or rather from fission induced by γ rays from neutron capture in the construction material.

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Application of the Shockley–Ramo theorem on the grid inefficiency of Frisch grid ionization chambers

Göök

Hambsch

Oberstedt

et al. 2012

Nuclear Instruments and Methods in Physics Research Section A:

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