E.M. Schooneveld scite author profile

Recent studies indicate the resonance detector (RD) technique as an interesting approach for neutron spectroscopy in the electron volt energy region. This work summarizes the results of a series of experiments where RD consisting of YAlO 3 (YAP) scintillators were used to detect scattered neutrons with energy in the range 1 -200 eV. The response of YAP scintillators to radiative capture ␥ emission from a 238 U analyzer foil was characterized in a series of experiments performed on the VESUVIO spectrometer at the ISIS pulsed neutron source. In these experiments a biparametric data acquisition allowed the simultaneous measurements of both neutron time-of-flight and ␥ pulse height (energy) spectra. The analysis of the ␥ pulse height and neutron time of flight spectra permitted to identify and distinguish the signal and background components. These measurements showed that a significant improvement in the signal-to-background ratio can be achieved by setting a lower level discrimination on the pulse height at about 600 keV equivalent photon energy. Present results strongly indicate YAP scintillators as the ideal candidate for neutron scattering studies with epithermal neutrons at both very low ͑Ͻ5°͒ and intermediate scattering angles.

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Characterisation of the incident beam and current diffraction capabilities on the VESUVIO spectrometer

Romanelli

Krzystyniak

Senesi

et al. 2017

Meas. Sci. Technol.

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The VESUVIO spectrometer at the ISIS pulsed neutron and muon source is a unique instrument amongst those available at neutron facilities. This is the only inverted-geometry neutron spectrometer accessing values of energy and wavevector transfer above tens of eV and , respectively, and where deep inelastic neutron scattering experiments are routinely performed. As such, the procedure at the base of the technique has been previously described in an article published by this journal (Mayers and Reiter 2012 Meas. Sci. Technol. 23 045902). The instrument has recently witnessed an upsurge of interest due to a new trend to accommodate, within a single experiment, neutron diffraction and transmission measurements in addition to deep inelastic neutron scattering. This work presents a broader description of the instrument following these recent developments. In particular, we assess the absolute intensity and two-dimensional profile of the incident neutron beam and the capabilities of the backscattering diffraction banks. All results are discussed in the light of recent changes to the moderator viewed by the instrument. We find that VESUVIO has to be considered a high-resolution diffractometer as much as other diffractometers at ISIS, with a resolution as high as in backscattering. Also, we describe the extension of the wavelength range of the instrument to include lower neutron energies for diffraction measurements, an upgrade that could be readily applied to other neutron instruments as well.

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Foil cycling technique for the VESUVIO spectrometer operating in the resonance detector configuration

Schooneveld

Mayers

Rhodes

et al. 2006

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This article reports a novel experimental technique, namely, the foil cycling technique, developed on the VESUVIO spectrometer ͑ISIS spallation source͒ operating in the resonance detector configuration. It is shown that with a proper use of two foils of the same neutron absorbing material it is possible, in a double energy analysis process, to narrow the width of the instrumental resolution of a spectrometer operating in the resonance detector configuration and to achieve an effective subtraction of the neutron and gamma backgrounds. Preliminary experimental results, obtained from deep inelastic neutron scattering measurements on lead, zirconium hydride, and deuterium chloride samples, are presented.

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CdZnTe γ detector for deep inelastic neutron scattering on the VESUVIO spectrometer

et al. 2004

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E.M. Schooneveld

Strain imaging by Bragg edge neutron transmission

YAP scintillators for resonant detection of epithermal neutrons at pulsed neutron sources

Characterisation of the incident beam and current diffraction capabilities on the VESUVIO spectrometer

Foil cycling technique for the VESUVIO spectrometer operating in the resonance detector configuration

CdZnTe γ detector for deep inelastic neutron scattering on the VESUVIO spectrometer

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