Thin gold layer in Ni electroforming process: optical surface characterization

Abstract: Mandrel replication by Nickel electroforming is a well-suited process to manufacture X-ray mirrors, making use of Gold layer playing the twofold role of release agent and reflective coating. To increase the optical performances of mirrors it is crucial to minimize the impact of X-ray scattering effects related to surface microroughness, especially when the mirror is intended to operate in hard X-rays. In this case, the Gold layer simply acts as release agent because the reflection is demanded to interferential… Show more

“…A thin layer (60 nm) of gold is deposited onto the mandrel, which is required for releasing the shell from the mandrel after electroforming, but also to improve the surface roughness. 7 After the electroforming process is complete, the mirror is released from the mandrel by thermal separation. At this point, graded multilayers are deposited on the inner surface of the mirror in order to enhance its reflectivity up to 79 keV (Sect.…”

Mirror design for the high-energy x-ray probe (HEX-P)

“…A thin layer (60 nm) of gold is deposited onto the mandrel, which is required for releasing the shell from the mandrel after electroforming, but also to improve the surface roughness. 7 After the electroforming process is complete, the mirror is released from the mandrel by thermal separation. At this point, graded multilayers are deposited on the inner surface of the mirror in order to enhance its reflectivity up to 79 keV (Sect.…”

Mirror design for the high-energy x-ray probe (HEX-P)