The NanoMAX hard X-ray nanoprobe is the first beamline to take full advantage of the diffraction-limited storage ring at the MAX IV synchrotron and delivers a high coherent photon flux for applications in diffraction and imaging. Here, we characterize its coherent and focused beam using ptychographic analysis. We derive beam profiles in the energy range 6-22 keV and estimate the coherent flux based on a probe mode decomposition approach
Imaging techniques are of paramount importance for our understanding of the universe. From galaxies ...
A hard x-ray nanoprobe beamline is being developed at the Advanced Photon Source (APS). The beamline...
Imaging large areas of a sample non-destructively and with high resolution is of great interest for ...
NanoMAX is the first hard X-ray nanoprobe beamline at the MAX IV laboratory. It utilizes the unique ...
8siA technique for quantitatively characterizing the complex-valued focal wavefield of arbitrary opt...
The diffraction endstation of the NanoMAX beamline is designed to provide high-flux coherent X-ray n...
International audienceX-ray ptychography is a coherent diffraction imaging technique with a high res...
The focusing and coherence properties of the NanoMAX Kirkpatrick–Baez mirror system at the fourth-ge...
In the past decade Kirkpatrick-Baez (KB) mirrors have been established as powerful focusing systems ...
Thehard x-ray scanning microscope at beamline P06 of PETRAIII at DESY in Hamburg serves a large user...
Ptychographic X-ray computed tomography is a quantitative three-dimensional imaging technique offere...
NanoMAX is a hard x-ray nanoimaging beamline at the new Swedish synchrotron radiation source MAX IV ...
We present the ptychographical reconstruction of the x-ray beam formed by nanofocusing lenses (NFLs)...
X-ray scanning microscopy relies on intensive nanobeams generated by imaginga highly brilliant synch...
Coherent (X-ray) diffractive imaging (CDI) is an increasingly popular form of X-ray microscopy, main...
Imaging techniques are of paramount importance for our understanding of the universe. From galaxies ...
A hard x-ray nanoprobe beamline is being developed at the Advanced Photon Source (APS). The beamline...
Imaging large areas of a sample non-destructively and with high resolution is of great interest for ...
NanoMAX is the first hard X-ray nanoprobe beamline at the MAX IV laboratory. It utilizes the unique ...
8siA technique for quantitatively characterizing the complex-valued focal wavefield of arbitrary opt...
The diffraction endstation of the NanoMAX beamline is designed to provide high-flux coherent X-ray n...
International audienceX-ray ptychography is a coherent diffraction imaging technique with a high res...
The focusing and coherence properties of the NanoMAX Kirkpatrick–Baez mirror system at the fourth-ge...
In the past decade Kirkpatrick-Baez (KB) mirrors have been established as powerful focusing systems ...
Thehard x-ray scanning microscope at beamline P06 of PETRAIII at DESY in Hamburg serves a large user...
Ptychographic X-ray computed tomography is a quantitative three-dimensional imaging technique offere...
NanoMAX is a hard x-ray nanoimaging beamline at the new Swedish synchrotron radiation source MAX IV ...
We present the ptychographical reconstruction of the x-ray beam formed by nanofocusing lenses (NFLs)...
X-ray scanning microscopy relies on intensive nanobeams generated by imaginga highly brilliant synch...
Coherent (X-ray) diffractive imaging (CDI) is an increasingly popular form of X-ray microscopy, main...
Imaging techniques are of paramount importance for our understanding of the universe. From galaxies ...
A hard x-ray nanoprobe beamline is being developed at the Advanced Photon Source (APS). The beamline...
Imaging large areas of a sample non-destructively and with high resolution is of great interest for ...