Add to ORKGIn recent years X-ray tomography has made progressive steps towards spatial resolution in the sub-micron range. A limiting factor is the finite focal spot size of state-of-the-art microfocus tubes. In this contribution we present a radiography setup with an X-ray source capable of generation focal spot sizes down to 80 nm, thanks to special targets designed using Monte Carlo simulations. Together with a high geometric magnification and a low-noise photon-counting detector this makes the setup ideal for material characterisation at the nanoscale
Micro- and nano-focus X-ray sources are extensively used in X-ray computed tomography systems to ach...
In the nanotechnology sector there is a strong need for non-destructive testing instruments that can...
X ray imaging offers a large penetration depth, good element contrast and short wavelength. This un...
In this paper we describe the optimization of transmission X-ray targets by Monte-Carlo simulation f...
This contribution discusses the microfocal X-ray technique and the high resolution X-ray computed to...
X-ray nanotomography is used to analyze materials on the sub-micrometer scale. Many soft biological ...
This paper describes the setup of two different solutions for laboratory X-ray microscopy working wi...
X-ray fluorescence computed tomography (XFCT) is a molecular imaging technique that can be used to s...
The NanoXCT project aims at the strong need of the nanotechnology sector for non-destructive testing...
X-ray luminescence computed tomography (XLCT) is a hybrid imaging modality with the potential to ach...
Point projection is a mature geometry of x-ray imaging that is implemented in scientific and industr...
Although superior in most aspects, synchrotron (as opposed to laboratory) X-ray microtomography (XMT...
An analytic model for the performance of cone beam microtomography is described. The maximum power o...
In this study, high-energy x-ray nanotomography (nano-computed tomography, nano-CT) based on full-fi...
X-ray scanning microscopy relies on intensive nanobeams generated by imaginga highly brilliant synch...
Micro- and nano-focus X-ray sources are extensively used in X-ray computed tomography systems to ach...
In the nanotechnology sector there is a strong need for non-destructive testing instruments that can...
X ray imaging offers a large penetration depth, good element contrast and short wavelength. This un...
In this paper we describe the optimization of transmission X-ray targets by Monte-Carlo simulation f...
This contribution discusses the microfocal X-ray technique and the high resolution X-ray computed to...
X-ray nanotomography is used to analyze materials on the sub-micrometer scale. Many soft biological ...
This paper describes the setup of two different solutions for laboratory X-ray microscopy working wi...
X-ray fluorescence computed tomography (XFCT) is a molecular imaging technique that can be used to s...
The NanoXCT project aims at the strong need of the nanotechnology sector for non-destructive testing...
X-ray luminescence computed tomography (XLCT) is a hybrid imaging modality with the potential to ach...
Point projection is a mature geometry of x-ray imaging that is implemented in scientific and industr...
Although superior in most aspects, synchrotron (as opposed to laboratory) X-ray microtomography (XMT...
An analytic model for the performance of cone beam microtomography is described. The maximum power o...
In this study, high-energy x-ray nanotomography (nano-computed tomography, nano-CT) based on full-fi...
X-ray scanning microscopy relies on intensive nanobeams generated by imaginga highly brilliant synch...
Micro- and nano-focus X-ray sources are extensively used in X-ray computed tomography systems to ach...
In the nanotechnology sector there is a strong need for non-destructive testing instruments that can...
X ray imaging offers a large penetration depth, good element contrast and short wavelength. This un...