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Improved STEREO simulation with a new gamma ray spectrum of excited gadolinium isotopes using FIFRELIN

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arxiv 1905.11967 v2 pith:PDXZ4O4X submitted 2019-05-28 physics.ins-det hep-exnucl-ex

Improved STEREO simulation with a new gamma ray spectrum of excited gadolinium isotopes using FIFRELIN

classification physics.ins-det hep-exnucl-ex
keywords neutroncapturegammagadoliniumspectrumstereocascadesdeexcitation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The STEREO experiment measures the electron antineutrino spectrum emitted in a research reactor using the inverse beta decay reaction on H nuclei in a gadolinium loaded liquid scintillator. The detection is based on a signal coincidence of a prompt positron and a delayed neutron capture event. The simulated response of the neutron capture on gadolinium is crucial for the comparison with data, in particular in the case of the detection efficiency. Among all stable isotopes, $^{155}$Gd and $^{157}$Gd have the highest cross sections for thermal neutron capture. The excited nuclei after the neutron capture emit gamma rays with a total energy of about 8 MeV. The complex level schemes of $^{156}$Gd and $^{158}$Gd are a challenge for the modeling and prediction of the deexcitation spectrum, especially for compact detectors where gamma rays can escape the active volume. With a new description of the Gd(n,${\gamma}$) cascades obtained using the FIFRELIN code, the agreement between simulation and measurements with a neutron calibration source was significantly improved in the STEREO experiment. A database of ten millions of deexcitation cascades for each isotope has been generated and is now available for the user.

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