We present a new method to analyze quantitatively the wave front of a partially coherent x-ray beam. The technique is based on the use of two-dimensional speckle patterns combined with digital image correlation algorithms and offers a pixel size resolution, a high accuracy, and a reduced sensitivity to mechanical vibrations thanks to a very simple setup. The requirements on transverse and longitudinal coherence are also low. Finally, we show how the method can be used for phase contrast imaging applications by a single sample exposure process
High energy X-ray phase contrast tomography is tremendously beneficial to the study of thick and den...
International audienceThe application of the X-ray phase-contrast 'edge illumination' principle to t...
9siWe report on the observation and application of near-field speckles with a laboratory x-ray sourc...
In the past few years, X-ray phase-contrast and dark-field imaging have evolved to be invaluable too...
In the past few years, X-ray phase-contrast and dark-field imaging have evolved to be invaluable too...
Nondestructive microscale investigation of objects is an invaluable tool in life and materials scien...
This thesis presents research and development work on synchrotron X-ray at-wavelength metrology meth...
The speckle-based scanning method for x-ray phase-contrast imaging is implemented with a liquid-meta...
A method is presented for the measurement of the phase gradient of a wavefront by tracking the relat...
We develop a means for speckle-based phase imaging of the projected thickness of a single-material ...
Two new x-ray imaging modalities exploiting the phase delay electromagnetic waves experience when t...
Two-dimensional (2D) Talbot array illuminators (TAIs) were designed, fabricated, and evaluated for h...
We present a study on the influence of different scan and reconstruction parameters on the image qua...
17 pages, 12 figuresX-ray near-field speckle-based phase-sensing approaches provide an efficient mea...
Phase-contrast imaging with x-rays is a developing field for imaging weakly absorbing materials. In ...
High energy X-ray phase contrast tomography is tremendously beneficial to the study of thick and den...
International audienceThe application of the X-ray phase-contrast 'edge illumination' principle to t...
9siWe report on the observation and application of near-field speckles with a laboratory x-ray sourc...
In the past few years, X-ray phase-contrast and dark-field imaging have evolved to be invaluable too...
In the past few years, X-ray phase-contrast and dark-field imaging have evolved to be invaluable too...
Nondestructive microscale investigation of objects is an invaluable tool in life and materials scien...
This thesis presents research and development work on synchrotron X-ray at-wavelength metrology meth...
The speckle-based scanning method for x-ray phase-contrast imaging is implemented with a liquid-meta...
A method is presented for the measurement of the phase gradient of a wavefront by tracking the relat...
We develop a means for speckle-based phase imaging of the projected thickness of a single-material ...
Two new x-ray imaging modalities exploiting the phase delay electromagnetic waves experience when t...
Two-dimensional (2D) Talbot array illuminators (TAIs) were designed, fabricated, and evaluated for h...
We present a study on the influence of different scan and reconstruction parameters on the image qua...
17 pages, 12 figuresX-ray near-field speckle-based phase-sensing approaches provide an efficient mea...
Phase-contrast imaging with x-rays is a developing field for imaging weakly absorbing materials. In ...
High energy X-ray phase contrast tomography is tremendously beneficial to the study of thick and den...
International audienceThe application of the X-ray phase-contrast 'edge illumination' principle to t...
9siWe report on the observation and application of near-field speckles with a laboratory x-ray sourc...