Abstract

Neon ions were accelerated to energies between 1.5 and 3.0 MeV. Pulse height distributions were measured with a silicon surface barrier detector both for directly incident ions and for ions transmitted through carbon foils. Detector line shapes are skewed with widths of about 100 keV (fwhm) and are not strongly dependent on energy or energy loss. The impact of line shapes on thickness resolution in energy-loss radiography is discussed. Information is developed for detector pulse height defect for neon ions and for neon ion stopping powers in carbon.

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