Add to ORKGIn an effort to manufacture high-angular-resolution, grazing-incidence, x-ray optics, Marshall Space Flight Center (MSFC) is taking measures to improve its electroformed replicated optics. A key development is the use of computer-numerical control (CNC) polishing to deterministically improve the surface of electroless nickel mandrels used to replicate grazing- incidence optics. Metrology, control software and polishing parameters must function together seamlessly to reach the specifications required to replicate sub-arcsecond optics. Each change in polishing parameters effects the wear pattern of the polishing head. Using Richardson-Lucy deconvolution, the controller software fits the wear pattern to metrology data to calculate the changing...
We describe the fabrication process for producing shallow-graze-angle mirrors for hard x-ray astrono...
The aim of this article is optical surfaces polishing on the 6-axis computer-controlled (CCM) machin...
Abstract Background We have developed edge-control for the Precessions TM process suitable for fast ...
This project is to demonstrate the capability to directly fabricate lightweight, high-resolution, gr...
Grinding and mechanical polishing techniques used for x-ray optics mandrel figuring lead to mid-freq...
In this paper we address two interrelated issues important to primary mirror segments for extremely ...
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...
We present progress on our development of edge control for fabrication of mirror segments potentiall...
Off-axis and “freeform ” optical surfaces are in increasing demand. Such surfaces introduce addition...
Zeeko's Precession polishing process uses a bulged, rotating membrane tool, creating a contact-area ...
The recent upsurge in the demand for off-axis and complex "freeform" optical surfaces is driving the...
The recent upsurge in the demand for off-axis and complex “freeform ” optical surfaces is driving th...
Advanced optical systems for applications such as grazing incidence Wolter I x-ray mirror assemblies...
NASAs Marshall Space Flight Center (MSFC) maintains an active research program toward the developmen...
We describe the fabrication process for producing shallow-graze-angle mirrors for hard x-ray astrono...
The aim of this article is optical surfaces polishing on the 6-axis computer-controlled (CCM) machin...
Abstract Background We have developed edge-control for the Precessions TM process suitable for fast ...
This project is to demonstrate the capability to directly fabricate lightweight, high-resolution, gr...
Grinding and mechanical polishing techniques used for x-ray optics mandrel figuring lead to mid-freq...
In this paper we address two interrelated issues important to primary mirror segments for extremely ...
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...
We present progress on our development of edge control for fabrication of mirror segments potentiall...
Off-axis and “freeform ” optical surfaces are in increasing demand. Such surfaces introduce addition...
Zeeko's Precession polishing process uses a bulged, rotating membrane tool, creating a contact-area ...
The recent upsurge in the demand for off-axis and complex "freeform" optical surfaces is driving the...
The recent upsurge in the demand for off-axis and complex “freeform ” optical surfaces is driving th...
Advanced optical systems for applications such as grazing incidence Wolter I x-ray mirror assemblies...
NASAs Marshall Space Flight Center (MSFC) maintains an active research program toward the developmen...
We describe the fabrication process for producing shallow-graze-angle mirrors for hard x-ray astrono...
The aim of this article is optical surfaces polishing on the 6-axis computer-controlled (CCM) machin...
Abstract Background We have developed edge-control for the Precessions TM process suitable for fast ...
