Zemike phase-contrast microscopy was realized using a micro-capill- ary X-ray refractive tens. Using a gold M-phase plate, positive phase contrast images were successfully taken. The microscope System was designed so that the 1D & 2D phase contrast images can be taken with various sizes of the phase plates and the absorption contrast images, switchable by moving the phase plate. The profiles of the observed images are compared with the theoretically expected ones and they qualitatively agreed with each other. The sensitivity of the system was checked by detecting weakly absorbing materials, such as the SiC particles with the diameter of less than 5 micrometer
© 2006 Benedicta Arhatari.The conventional approach for x-ray radiography is absorption contrast. In...
We report on the successful demonstration of X-ray phase contrast microscopy and micro computed tomo...
Recently, a new X-ray imaging technique called phase contrast imaging has been developed. This appro...
Zemike phase-contrast microscopy was realized using a micro-capill- ary X-ray refractive tens. Usin...
The current work represents the first implementation of Zernike phase contrast for compound refracti...
A hard X-ray transmission imaging microscope has been in use at the beamline BL24XU of SPring-8. It ...
DoctorQuantitative phase imaging is an emerging field to study weakly scattering and absorbing speci...
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...
A Zernike-type phase-contrast X-ray microscope with a zone plate and a phase plate has been develope...
We demonstrate Zernike phase contrast in a compact soft x-ray microscope using a single-element opti...
There has been surprisingly little published about Zernike’s phase contrast microscope [1] in spite ...
Zernike phase contrast microscopy is extended and combined with a phase-shifting mechanism to perfor...
We have developed a point-projection X-ray microscope based around an SEM host instrument which expl...
We have developed a new approach to SEM-based X-ray projection microscopy which utilises phase contr...
© 2006 Benedicta Arhatari.The conventional approach for x-ray radiography is absorption contrast. In...
We report on the successful demonstration of X-ray phase contrast microscopy and micro computed tomo...
Recently, a new X-ray imaging technique called phase contrast imaging has been developed. This appro...
Zemike phase-contrast microscopy was realized using a micro-capill- ary X-ray refractive tens. Usin...
The current work represents the first implementation of Zernike phase contrast for compound refracti...
A hard X-ray transmission imaging microscope has been in use at the beamline BL24XU of SPring-8. It ...
DoctorQuantitative phase imaging is an emerging field to study weakly scattering and absorbing speci...
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...
A Zernike-type phase-contrast X-ray microscope with a zone plate and a phase plate has been develope...
We demonstrate Zernike phase contrast in a compact soft x-ray microscope using a single-element opti...
There has been surprisingly little published about Zernike’s phase contrast microscope [1] in spite ...
Zernike phase contrast microscopy is extended and combined with a phase-shifting mechanism to perfor...
We have developed a point-projection X-ray microscope based around an SEM host instrument which expl...
We have developed a new approach to SEM-based X-ray projection microscopy which utilises phase contr...
© 2006 Benedicta Arhatari.The conventional approach for x-ray radiography is absorption contrast. In...
We report on the successful demonstration of X-ray phase contrast microscopy and micro computed tomo...
Recently, a new X-ray imaging technique called phase contrast imaging has been developed. This appro...