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Beam-induced space-charge effects in time projection chambers in low-energy nuclear physics experiments

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Authors

Randhawa, J. S.
Cortesi, Marco
Ayyad, Y.
Mittig, Wolfgang
Ahn, T
Bazin, D.
Beceiro-Novo, S
Carpenter, L.
Cook, Kaitlin
Dasgupta, Mahananda

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Elsevier

Abstract

Tracking capabilities in Time Projection Chambers (TPCs) are strongly dictated by the homogeneity of the drift field. Ion back-flow in various gas detectors, mainly induced by the secondary ionization processes during amplification, has long been known as a source of drift field distortion. Here, we report on beam-induced space-charge effects from the primary ionization process in the drift region in low-energy nuclear physics experiment with Active Target Time Projection Chamber (AT-TPC). A qualitative explanation of the observed effects is provided using detailed electron transport simulations. As ion mobility is a crucial factor in the space-charge effects, the need for a careful optimization of gas properties is highlighted. The impact of track distortion on tracking algorithm performance is also discussed.

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Nuclear Instruments and Methods in Physics Research: Section A

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Restricted until

2037-12-31