Diffractive optics, such as Phase Fresnel Lenses (PFL's), offer the potential to achieve excellent imaging performance in the X-ray and gamma-ray photon regimes. In principle, the angular resolution obtained with these devices can be diffraction limited. Furthermore, improvements in signal sensitivity can be achieved as virtually the entire flux incident on a lens can be concentrated onto a small detector area. In order to verify experimentally the imaging performance, we have fabricated PFL's in silicon using gray-scale lithography to produce the required Fresnel profile. These devices are to be evaluated in the recently constructed 600-meter X-ray interferometry testbed at NASA/GSFC. Profile measurements of the Fresnel structures in fabricated PFL's have been performed and have been used to obtain initial characterization of the expected PFL imaging efficiencies. © 2006 Springer.
CITATION STYLE
Krizmanic, J., Morgan, B., Streitmatter, R., Gehrels, N., Gendreau, K., Arzoumanian, Z., … Skinner, G. (2006). Development of ground-testable phase fresnel lenses in silicon. In Focusing Telescopes in Nuclear Astrophysics (pp. 299–306). Springer Netherlands. https://doi.org/10.1007/978-1-4020-5304-7_30
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