Response of a Li-glass/multi-anode photomultiplier detector to <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline" overflow="scroll" id="d1e272" altimg="si9.gif"><mml:mi>α</mml:mi></mml:math>-particles from 241Am

Rofors, E.; Perrey, H.; Jebali, R. Al; Annand, J. R. M.; Boyd, L.; Clemens, U.; Désert, Sylvain; Engels, R.; Fissum, Kevin; Frielinghaus, Henrich; Gheorghe, Codin; Hall-Wilton, R.; Jaksch, Sebastian; Jalgén, A.; Kanaki, K.; Kemmerling, G.; Maulerova, V.; Mauritzson, N.; Montgomery, R. A.; Scherzinger, J.; Seitz, B.

doi:10.1016/j.nima.2019.03.014

Cited by 8 publications

(8 citation statements)

References 37 publications

(46 reference statements)

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“…The scan shows that signal leakage to adjacent pixels is ∼7-12% when the neutron beam strikes the center of either pixel. This represents a larger spread of scintillation signal into the adjacent pixel than was the case for previous investigations of relatively central pixels with charged-particle beams [32,33] and may be related to the di usely re ecting white paper placed at the front face of the GS20 sheet. α-particle scan results for (non-edge) P36, P37, P44, and P45 [32] demonstrated summed gain-corrected charge distributions that were at across the pixels and boundary regions.…”

Section: Resultsmentioning

confidence: 74%

“…LEDs and laser light have been used extensively to study the detailed responses of several di erent MAPMTs [22][23][24][25][26][27][28][29][30][31]. Previously, scans of a ∼1 mm collimated beam of ∼4 MeV α-particles from an 241 Am source [32] and ∼100 µm diameter beams of 2.5 MeV protons and deuterons [33] have been used to study the position-dependent response of a SoNDe detector prototype in regions well-removed from the edges of the detector acceptance. Thermal neutrons have also been used to perform rst tests both on similar detectors [34] and on SoNDe modules [21].…”

Section: Introductionmentioning

confidence: 99%

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Response of a Li-glass/multi-anode photomultiplier detector to collimated thermal-neutron beams

Rofors,

Mauritzson,

Perrey

et al. 2020

Preprint

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The response of a position-sensitive Li-glass scintillator detector being developed for thermal-neutron detection with 6 mm position resolution has been investigated using collimated beams of thermal neutrons. The detector was moved perpendicularly through the neutron beams in 0.5 to 1.0 mm horizontal and vertical steps. Scintillation was detected in an 8 × 8 pixel multi-anode photomultiplier tube on an event-by-event basis. In general, several pixels registered large signals at each neutron-beam location. The number of pixels registering signal above a set threshold was investigated, with the maximization of the single-hit e ciency over the largest possible area of the detector as the primary goal. At a threshold of ∼50% of the mean of the full-deposition peak, ∼80% of the events were registered in a single pixel, resulting in an e ective position resolution of ∼5 mm in X and Y.Lower thresholds generally resulted in events demonstrating higher pixel multiplicities,

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Section: Resultsmentioning

confidence: 74%

Section: Introductionmentioning

confidence: 99%

Response of a Li-glass/multi-anode photomultiplier detector to collimated thermal-neutron beams

Rofors,

Mauritzson,

Perrey

et al. 2020

Preprint

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“…Across the boundary between the pixels, the lightloss gradient increases to 35%/mm. Based upon the α-particle scan results [31], it was anticipated that the sums of the gain-corrected charge distributions would be at across the pixels and the boundary regions. Instead, the results have a slightly convex distribution centered at the pixel edge.…”

Section: Resultsmentioning

confidence: 99%

“…Knowledge of the behavior of the adjacent pixels as a function of threshold is important for the TOF mode of operation at ESS. In previous work [31] determining responses to scans of ∼1 mm FWHM beams of α-particles, the hit multiplicity (M = 1, M = 2, etc.) for adjacent pixels as a function of the beam-spot position was measured.…”

Section: Resultsmentioning

confidence: 99%

“…A thermal-neutron interaction with the 6 Li of the Li-glass results in an α-particle (2.05 MeV) and a triton 2.73 MeV). Scans of a collimated beam of ∼4 MeV α-particles from a 241 Am source have been used to study the position-dependent response of a SoNDe detector prototype [31]. Here, in the absence of tritium beams, beams of 2.5 MeV protons and deuterons have been scanned across the face of a SoNDe module.…”

Section: Introductionmentioning

confidence: 99%

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Response of a Li-glass/multi-anode photomultiplier detector to focused proton and deuteron beams

Rofors,

Pallon,

Jebali

et al. 2020

Preprint

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e response of a position-sensitive Li-glass based scintillation detector to focused beams of 2.5 MeV protons and deuterons has been investigated. e beams were scanned across the detector in 0.5 mm horizontal and vertical steps perpendicular to the beams. Scintillation light was registered using an 8 × 8 pixel multi-anode photomultiplier tube. e signal amplitudes were recorded for each pixel on an eventby-event basis. Several pixels generally registered considerable signals at each beam location. e number of pixels above set thresholds were investigated, with the optimization of the single-hit e ciency over the largest possible area as the goal. For both beams, at a threshold of ∼50% of the mean of the full-deposition peak, ∼80% of the events were registered in a single pixel, resulting in an e ective position resolution of ∼5 mm in X and Y.

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Response of a Li-glass/multi-anode photomultiplier detector to focused proton and deuteron beams

Rofors

Pallon

Jebali

et al. 2020

Nuclear Instruments and Methods in Physics Research Section A:

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Response of a Li-glass/multi-anode photomultiplier detector to α-particles from 241Am

Cited by 8 publications

References 37 publications

Response of a Li-glass/multi-anode photomultiplier detector to collimated thermal-neutron beams

Response of a Li-glass/multi-anode photomultiplier detector to collimated thermal-neutron beams

Response of a Li-glass/multi-anode photomultiplier detector to focused proton and deuteron beams

Response of a Li-glass/multi-anode photomultiplier detector to focused proton and deuteron beams

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