Add to ORKGCylindrical (hyperbolic - parabolic Wolter I) mirrors have been electroformed from nickel over an electroless nickel-phosphorous (NiP) plated aluminum mandrel in support of the NASA AXAF-S x-ray spectrometer program. The electroless nickel was diamond turned and polished to achieve a surface finish of 10 angstroms rms or better. Gold was then plated on the nickel alloy after an electrochemical passivation step. Next a heavy layer of pure nickel was plated one millimeter thick with controlled stress at zero using a commercial PID program to form the actual mirror. This shell was removed from the NiP alloy coated mandrel by cryogenic cooling and contraction of the aluminum to release the mirror. It is required that the gold not adhere well to...
The Space Optics Manufacturing Technology Center of NASA\u27s Marshall Space Flight Center is involv...
Ultra-precise metal optics are key components of sophisticated scientific instrumentation in astrono...
The Space Optics Manufacturing Technology Center of NASA\u27s Marshall Space Flight Center is involv...
Advanced optical systems for applications such as grazing incidence Wolter I x-ray mirror assemblies...
Advanced optical systems for applications such as grazing incidence Wolter I x-ray mirror assemblies...
Lightweight, precision optical reflectors are made by electroforming nickel onto masters. Steps for ...
Electroless Nickel enables the realization of ultra- precisely manufactured metal optics. For this, ...
Future x-ray astronomical missions, like the International X-ray Observatory (IXO), will likely requ...
Ultra-precision diamond turning can deliver very accurate form, often less than 100nm P-V. A possibl...
The task objective has been to apply a coating of nickel-phosphorous alloy to a laminar flow wind tu...
Ultra-precise metal optics are key components of sophisticated scientific instruments in astronomy a...
Studies are being carried out to compare the performance of several different separation materials u...
A demonstration x-ray optic has been produced by diamond turning and replication techniques that cou...
Metal optics is an inherent part of space instrumentation for years. Diamond turned aluminum (Al6061...
Ultra precision cutting with diamond tools enables flexible manufacturing of various surface shapes ...
The Space Optics Manufacturing Technology Center of NASA\u27s Marshall Space Flight Center is involv...
Ultra-precise metal optics are key components of sophisticated scientific instrumentation in astrono...
The Space Optics Manufacturing Technology Center of NASA\u27s Marshall Space Flight Center is involv...
Advanced optical systems for applications such as grazing incidence Wolter I x-ray mirror assemblies...
Advanced optical systems for applications such as grazing incidence Wolter I x-ray mirror assemblies...
Lightweight, precision optical reflectors are made by electroforming nickel onto masters. Steps for ...
Electroless Nickel enables the realization of ultra- precisely manufactured metal optics. For this, ...
Future x-ray astronomical missions, like the International X-ray Observatory (IXO), will likely requ...
Ultra-precision diamond turning can deliver very accurate form, often less than 100nm P-V. A possibl...
The task objective has been to apply a coating of nickel-phosphorous alloy to a laminar flow wind tu...
Ultra-precise metal optics are key components of sophisticated scientific instruments in astronomy a...
Studies are being carried out to compare the performance of several different separation materials u...
A demonstration x-ray optic has been produced by diamond turning and replication techniques that cou...
Metal optics is an inherent part of space instrumentation for years. Diamond turned aluminum (Al6061...
Ultra precision cutting with diamond tools enables flexible manufacturing of various surface shapes ...
The Space Optics Manufacturing Technology Center of NASA\u27s Marshall Space Flight Center is involv...
Ultra-precise metal optics are key components of sophisticated scientific instrumentation in astrono...
The Space Optics Manufacturing Technology Center of NASA\u27s Marshall Space Flight Center is involv...