We demonstrate Zernike phase contrast in a compact soft x-ray microscope using a single-element optic. The optic is a combined imaging zone plate and a Zernike phase plate and does not require any additional alignment or components. Contrast is increased and inversed in an image of a test object using the Zernike zone plate. This type of optic may be implemented into any existing x-ray microscope where phase contrast is of interest
X-ray microscopy is a commonly used method especially in material scienceapplication, where the larg...
Phase contrast microscopy allows the study of highly transparent yet detail-rich specimens by produc...
X-ray imaging is a standard tool for the non-destructive inspection of the internal structure of sam...
The current work represents the first implementation of Zernike phase contrast for compound refracti...
Zemike phase-contrast microscopy was realized using a micro-capill- ary X-ray refractive tens. Usin...
A Zernike-type phase-contrast X-ray microscope with a zone plate and a phase plate has been develope...
DoctorQuantitative phase imaging is an emerging field to study weakly scattering and absorbing speci...
A hard X-ray transmission imaging microscope has been in use at the beamline BL24XU of SPring-8. It ...
Full-field transmission hard X-ray microscopy (TXM) has been widely applied to study morphology and ...
A high spatial resolution X-ray microscope was constructed using an X-ray refractive lens as an obje...
Zernike phase contrast microscopy is a well-established method for imaging specimens with low absorp...
Zernike phase contrast microscopy is extended and combined with a phase-shifting mechanism to perfor...
We explore the possibility of applying physical phase plates (PPs) in combination with aberration-co...
There has been surprisingly little published about Zernike’s phase contrast microscope [1] in spite ...
A Zernike-type imaging microscope using a sputtered-sliced Fresnel zone plate (SS-FZP) has been deve...
X-ray microscopy is a commonly used method especially in material scienceapplication, where the larg...
Phase contrast microscopy allows the study of highly transparent yet detail-rich specimens by produc...
X-ray imaging is a standard tool for the non-destructive inspection of the internal structure of sam...
The current work represents the first implementation of Zernike phase contrast for compound refracti...
Zemike phase-contrast microscopy was realized using a micro-capill- ary X-ray refractive tens. Usin...
A Zernike-type phase-contrast X-ray microscope with a zone plate and a phase plate has been develope...
DoctorQuantitative phase imaging is an emerging field to study weakly scattering and absorbing speci...
A hard X-ray transmission imaging microscope has been in use at the beamline BL24XU of SPring-8. It ...
Full-field transmission hard X-ray microscopy (TXM) has been widely applied to study morphology and ...
A high spatial resolution X-ray microscope was constructed using an X-ray refractive lens as an obje...
Zernike phase contrast microscopy is a well-established method for imaging specimens with low absorp...
Zernike phase contrast microscopy is extended and combined with a phase-shifting mechanism to perfor...
We explore the possibility of applying physical phase plates (PPs) in combination with aberration-co...
There has been surprisingly little published about Zernike’s phase contrast microscope [1] in spite ...
A Zernike-type imaging microscope using a sputtered-sliced Fresnel zone plate (SS-FZP) has been deve...
X-ray microscopy is a commonly used method especially in material scienceapplication, where the larg...
Phase contrast microscopy allows the study of highly transparent yet detail-rich specimens by produc...
X-ray imaging is a standard tool for the non-destructive inspection of the internal structure of sam...