Abstract
Measurements of neutron-induced cross sections to generate nuclear data are a core activity of the JRC-Directorate G Standards for Nuclear Safety, Security and Safeguards unit in Geel. Thin 10B layers are of great importance in this activity as they are used to measure the absolute neutron flux in the beam using the standard 10B(n,α)7Li reaction cross-section as a reference. After a period of reduced activity and in line with a renewed interest for nuclear data, the demand for high quality 10B targets increased. In this paper we describe the design and features of a new e-beam evaporator specifically customized for the preparation of boron targets as replacement of the old dysfunctional equipment. Several 10B targets of varying thicknesses were prepared and characterized as part of the factory acceptance tests and implementation in the JRC-Geel target preparation laboratory. Differential substitution weighing was applied for mass determination and in order to calibrate the thickness monitor. Comparative time-of-flight measurements relative to 10B and 235U standard targets were conducted at the GELINA neutron time-of-flight facility at the JRC-Geel site as second methodology for the determination of 10B areal density. The morphology of the layers was assessed by means of Scanning Electron Microscopy (SEM). The determination of impurities was realized by means of Energy Dispersive X-ray (EDX). Finally, two boron targets were prepared in the frame of the measurement of the neutron induced fission cross-section of 230Th at the n_TOF neutron time-of-flight facility at CERN.
Highlights
The target preparation laboratory of the JRC in Geel was established in 1961
Several boron targets were prepared as part of the acceptance tests, implementation, optimization and calibration of the equipment, characterization of the areal density and for a neutron time of flight experiment
The optimal settings of the evaporation source were defined during the first evaporation runs by gradually increasing the power of the e-beam until a significant signal was registered by the thickness monitor and while applying high frequency sweeping
Summary
The target preparation laboratory of the JRC in Geel was established in 1961. The first boron targets were prepared in 1967 by high frequency induction [1] and later on by e-beam evaporation for the preparation of boron reference standards for the neutron lifetime experiment [2]. High quality 10B targets were requested for the absolute neutron flux monitoring of the beam by means of the 10B(n,α)7Li reaction cross-section data as standard reference. In view of this renewed interest, the target preparation activities were revived [6] and in a first stage the old Leighbold Univex 450 e-beam evaporator was put back into service in 2009 after years of inactivity. The mass of the layers was monitored at several time intervals with a microbalance and by means of comparative weighing This indicated a clear loss of mass in time which demonstrated the instability of the deposited layer, most likely due to the poor adsorption of the boron atoms as the original operational conditions could no longer be reached. Energy Dispersive X-ray (EDX) analysis for assessment of the layer quality and elemental composition are presented and discussed as well as further needs for characterisation
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