T.L. van Vuure scite author profile

Abstract-Experiments at the anticipated intense spallation neutron sources require neutron detection with typically millimeter position resolution. We are investigating the possibility of applying the gas electron multiplier (GEM) for this purpose. For efficient detection, 3 He gas at up to 10 bar is required with some stopping gas at a differential pressure of 3-5 bar, i.e., high enough to sufficiently reduce the range of the neutron capture reaction products to achieve the required resolution.Due to the large initial charge deposition in the gas, only a small gain (10-100) is necessary. However, at the high pressures involved, it is not clear if even this can be achieved.We present first results of experiments using a range of gases, pressures, and, in this case, GEM hole sizes of 60 and 80 m to investigate this question. We observed the highest gain in an Ar/DME mixture, but this mixture does not meet the resolution criterion. The use of Xe (an effective stopping gas) in a Xe/DME mixture is ruled out, as no signal can be detected at pressures above 2 bar.Index Terms-Gas electron multiplier, thermal neutron detection.

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Performance of high pressure Xe/TMA in GEMs for neutron and X-ray detection

Kreuger

Eijk

Fraga³

et al.

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A scintillating GEM for 2D-dosimetry in radiation therapy

Timmer

Vuure

Bom

et al. 2002

Nuclear Instruments and Methods in Physics Research Section A:

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Dose imaging in radiotherapy with an Ar–CF4 filled scintillating GEM

Fetal

Eijk

Fraga

et al. 2003

Nuclear Instruments and Methods in Physics Research Section A:

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T.L. van Vuure

Advances in detectors for single crystal neutron diffraction

High-pressure GEM operation aiming at thermal neutron detection

Performance of high pressure Xe/TMA in GEMs for neutron and X-ray detection

A scintillating GEM for 2D-dosimetry in radiation therapy

Dose imaging in radiotherapy with an Ar–CF4 filled scintillating GEM

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