Add to ORKGThis paper outlines an in-depth study of the W/Si coated mirrors for the High Energy Focusing Telescope (HEFT). We present data taken at 8, 40 and 60 keV obtained at the Danish Space Research Institute and the European Synchrotron Radiation Facility in Grenoble. The set of samples were chosen to cover the parameter space of sample type, sample size and coating type. The investigation includes a study of the interfacial roughness across the sample surface, as substrates and later as coated, and an analysis of the roughness correlation in the W/Si coatings for N = 10 deposited bilayers. The powerlaw graded flight coating for the HEFT mirrors is studied for uniformity and scatter, as well as its performance at high energies
We are engaged in a program to develop focusing hard X-ray optics for future X-ray astronomy mission...
We have performed x-ray specular reflectivity and scattering measurements of thermally slumped glass...
Complete hard X-ray optics modules are currently being produced for the High Energy Focusing Telesco...
This paper outlines an in-depth study of the W/Si coated mirrors for the High Energy Focusing Telesc...
We have measured the hard X-ray reflectivity and imaging performance from depth graded W/Si multilay...
We have measured the hard X-ray reflectivity and imaging performance from depth graded W/Si multilay...
The High Energy Focusing Telescope (HEFT) will observe a wide range of objects including young super...
A planar magnetron sputtering facility has been established at the Danish Space Research Institute (...
A planar magnetron sputtering facility has been established at the Danish Space Research Institute (...
A planar magnetron sputtering facility has been established at the Danish Space Research Institute (...
We are developing depth-graded, multilayer-coated mirrors for astrophysical hard X-ray focusing tele...
We discuss the development of X-ray multilayer coatings for use as broad-band reflectors operating a...
The high energy focusing telescope (HEFT) is a balloon-borne system for obtaining arcminute imagery ...
We are engaged in a program to develop focusing hard X-ray optics for future X-ray astronomy mission...
The high energy focusing telescope (HEFT) is a balloon-borne system for obtaining arcminute imagery ...
We are engaged in a program to develop focusing hard X-ray optics for future X-ray astronomy mission...
We have performed x-ray specular reflectivity and scattering measurements of thermally slumped glass...
Complete hard X-ray optics modules are currently being produced for the High Energy Focusing Telesco...
This paper outlines an in-depth study of the W/Si coated mirrors for the High Energy Focusing Telesc...
We have measured the hard X-ray reflectivity and imaging performance from depth graded W/Si multilay...
We have measured the hard X-ray reflectivity and imaging performance from depth graded W/Si multilay...
The High Energy Focusing Telescope (HEFT) will observe a wide range of objects including young super...
A planar magnetron sputtering facility has been established at the Danish Space Research Institute (...
A planar magnetron sputtering facility has been established at the Danish Space Research Institute (...
A planar magnetron sputtering facility has been established at the Danish Space Research Institute (...
We are developing depth-graded, multilayer-coated mirrors for astrophysical hard X-ray focusing tele...
We discuss the development of X-ray multilayer coatings for use as broad-band reflectors operating a...
The high energy focusing telescope (HEFT) is a balloon-borne system for obtaining arcminute imagery ...
We are engaged in a program to develop focusing hard X-ray optics for future X-ray astronomy mission...
The high energy focusing telescope (HEFT) is a balloon-borne system for obtaining arcminute imagery ...
We are engaged in a program to develop focusing hard X-ray optics for future X-ray astronomy mission...
We have performed x-ray specular reflectivity and scattering measurements of thermally slumped glass...
Complete hard X-ray optics modules are currently being produced for the High Energy Focusing Telesco...