Gilliss Dyer scite author profile

Calibrated diagnostics for energetic particle detection allow for the systematic study of charged particle sources. The Fujifilm BAS-TR imaging plate (IP) is a reusable phosphorescent detector for radiation applications such as x-ray and particle beam detection. The BAS-TR IP has been absolutely calibrated to many low-Z (low proton number) ions, and extending these calibrations to the mid-Z regime is beneficial for the study of laser-driven ion sources. The Texas Petawatt Laser was used to generate energetic ions from a 100 nm titanium foil, and charge states Ti10+ through Ti12+, ranging from 6 to 27 MeV, were analyzed for calibration. A plastic detector of CR-39 with evenly placed slots was mounted in front of the IP to count the number of ions that correspond with the IP levels of photo-stimulated luminescence (PSL). A response curve was fitted to the data, yielding a model of the PSL signal vs ion energy. Comparisons to other published response curves are also presented, illustrating the trend of PSL/nucleon decreasing with increasing ion mass.

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Pulse Contrast Measurements of the Texas Petawatt Laser

Gaul

Kandadai

Dyer

et al. 2014

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An Ultra-Short Pulsed Neutron Source

Pomerantz

McCary

Meadows

et al. 2014

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Gilliss Dyer

GeV Electrons and High brightness Betatron X-rays from Petawatt-Laser-Driven Plasma Accelerators

Generation of Quasi-monoenergetic 2 GeV Electrons by Laser Wakefield Acceleration

The response function of Fujifilm BAS-TR imaging plates to laser-accelerated titanium ions

Pulse Contrast Measurements of the Texas Petawatt Laser

An Ultra-Short Pulsed Neutron Source

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