A. Junghans scite author profile

The neutron-induced fission cross section of 235U, a standard at thermal energy and between 0.15 MeV and 200 MeV, plays a crucial role in nuclear technology applications. The long-standing need of improving cross section data above 20 MeV and the lack of experimental data above 200 MeV motivated a new experimental campaign at the n_TOF facility at CERN. The measurement has been performed in 2018 at the experimental area 1 (EAR1), located at 185 m from the neutron-producing target (the experiment is presented by A. Manna et al. in a contribution to this conference). The 235U(n,f) cross section from 20 MeV up to about 1 GeV has been measured relative to the 1H(n,n)1H reaction, which is considered the primary reference in this energy region. The neutron flux impinging on the 235U sample (a key quantity for determining the fission events) has been obtained by detecting recoil protons originating from n-p scattering in a C2H4 sample. Two Proton Recoil Telescopes (PRT), consisting of several layers of solid-state detectors and fast plastic scintillators, have been located at proton scattering angles of 25.07° and 20.32°, out of the neutron beam. The PRTs exploit the ΔE-E technique for particle identification, a basic requirement for the rejection of charged particles from neutron-induced reactions in carbon. Extensive Monte Carlo simulations were performed to characterize proton transport through the different slabs of silicon and scintillation detectors, to optimize the experimental set-up and to deduce the efficiency of the whole PRT detector. In this work we compare measured data collected with the PRTs with a full Monte Carlo simulation based on the Geant-4 toolkit.

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Giant and Low-Energy Dipole Modes in Neutron-Rich Nuclei

Rossi¹,

Adrich²,

Aksouh³

et al. 2013

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Photon Scattering by Nuclei

Grosse

Junghans

2013

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Setup for the measurement of the ²³⁵U(n, f) cross section relative to n-p scattering up to 1 GeV

et al. 2020

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The neutron induced fission of 235U is extensively used as a reference for neutron fluence measurements in various applications, ranging from the investigation of the biological effectiveness of high energy neutrons, to the measurement of high energy neutron cross sections of relevance for accelerator driven nuclear systems. Despite its widespread use, no data exist on neutron induced fission of 235U above 200 MeV. The neutron facility n_TOF offers the possibility to improve the situation. The measurement of 235U(n,f) relative to the differential n-p scattering cross-section, was carried out in September 2018 with the aim of providing accurate and precise cross section data in the energy range from 10 MeV up to 1 GeV. In such measurements, Recoil Proton Telescopes (RPTs) are used to measure the neutron flux while the fission events are detected and counted with dedicated detectors. In this paper the measurement campaign and the experimental set-up are illustrated.

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A. Junghans

The Photoneutron Sources at the Radiation Facility Elbe

Monte Carlo simulations and n-p differential scattering data measured with Proton Recoil Telescopes

Giant and Low-Energy Dipole Modes in Neutron-Rich Nuclei

Photon Scattering by Nuclei

Setup for the measurement of the ²³⁵U(n, f) cross section relative to n-p scattering up to 1 GeV

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Resources

About

A. Junghans

The Photoneutron Sources at the Radiation Facility Elbe

Monte Carlo simulations and n-p differential scattering data measured with Proton Recoil Telescopes

Giant and Low-Energy Dipole Modes in Neutron-Rich Nuclei

Photon Scattering by Nuclei

Setup for the measurement of the 235U(n, f) cross section relative to n-p scattering up to 1 GeV

Contact Info

Product

Resources

About

Setup for the measurement of the ²³⁵U(n, f) cross section relative to n-p scattering up to 1 GeV