Conclusions
Ablator samples can be precision manufactured with thin (sub-micron) salt tracer layers
These tracer layers can provide information about local, time-dependent properties on the interiors of solid samples in ICF environments
Samples inside or attached to hohlraums can be backlit from the outside in order to perform point-projection spectroscopy
Chlorine Ka features can be clearly seen and measured in hohlraum targets using bismuth backlighters
Time-depend Ka absorption spectroscopy can be used to diagnose the physical conditions inside solid materials exposed to X-ray radiation fields
Germanium (even at the 1.5% level) can measurably modify the radiation hydrodynamics of ICF capsule ablator materials
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