Abstract
Current and charge signals have been collected for Se ions at 408 MeV, S at 160 MeV and Ni at 703 MeV, all stopped in silicon detectors. Some detectors were cut 0 ∘ off the 〈 1 1 1 〉 axis and some off the 〈 1 0 0 〉 axis. Important effects on the shape of the silicon current and charge signals have been observed, depending on the orientation of the impinging ion relative to the crystal axes and planes. A degradation of the energy and risetime resolution of about a factor ∼ 3 with respect to the measured optimal values (for example 7 ∘ off-axis orientation) is observed for ion impinging directions close to crystal axes and/or planes, i.e. the common scenario for normal incidence on 0 ∘ cut detectors. For Pulse Shape Analysis applications, the necessity of using such “random” oriented silicon detectors is demonstrated.
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