M. S. Herbert scite author profile

M. S. Herbert

5Publications

14Citation Statements Received

6Citation Statements Given

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Affiliations

University of the Western Cape, University of Cape Town

Publications

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Determination of neutron energy spectra inside a water phantom irradiated by 64 MeV neutrons

Herbert

Brooks

Allie

et al. 2007

Radiation Protection Dosimetry

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A NE230 deuterated liquid scintillator detector (25 mm diameter x 25 mm) has been used to investigate neutron energy spectra as a function of position in a water phantom under irradiation by a quasi-monoenergetic 64 MeV neutron beam. Neutron energy spectra are obtained from measurements of pulse height spectra by the NE230 detector using the Bayesian unfolding code MAXED. The experimentally measured energy spectra are compared with spectra calculated by Monte Carlo simulation using the code MCNPX.

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Monte Carlo simulations of the production of neutrons at iThemba LABS

Adam

Buthelezi

Nchodu

et al. 2010

Radiation Measurements

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Measurement of neutron fluence spectra up to 150 MeV using a stacked scintillator neutron spectrometer

Brooks¹,

Allie²,

Buffler³

et al. 2004

Radiation Protection Dosimetry

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A stacked scintillator neutron spectrometer (S3N) consisting of three slabs of liquid organic scintillator is described. A pulsed beam providing a broad spectrum of neutron energies is used to determine the detection efficiency of the spectrometer as a function of incident neutron energy and to measure the pulse height response matrix of the system. Neutron spectra can then be determined for beams with any kind of time structure by unfolding pulse height spectra measured by the S3N. Examples of fluence spectrum measurements in the energy range 20-150 MeV are presented.

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Learning as Accessing a Disciplinary Discourse: Integrating Academic Literacy into Introductory Physics Through Collaborative Partnership

Marshall

Conana

Maclons

et al. 2011

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A compact high-energy neutron spectrometer

Brooks

Buffler

Allie

et al. 2007

Radiation Protection Dosimetry

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A compact liquid organic neutron spectrometer (CLONS) based on a single NE213 liquid scintillator (5 cm diam. x 5 cm) is described. The spectrometer is designed to measure neutron fluence spectra over the energy range 2-200 MeV and is suitable for use in neutron fields having any type of time structure. Neutron fluence spectra are obtained from measurements of two-parameter distributions (counts versus pulse height and pulse shape) using the Bayesian unfolding code MAXED. Calibration and test measurements made using a pulsed neutron beam with a continuous energy spectrum are described and the application of the spectrometer to radiation dose measurements is discussed.

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M. S. Herbert

Determination of neutron energy spectra inside a water phantom irradiated by 64 MeV neutrons

Monte Carlo simulations of the production of neutrons at iThemba LABS

Measurement of neutron fluence spectra up to 150 MeV using a stacked scintillator neutron spectrometer

Learning as Accessing a Disciplinary Discourse: Integrating Academic Literacy into Introductory Physics Through Collaborative Partnership

A compact high-energy neutron spectrometer

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