Add to ORKGAn experimental study on the method of indentations for bent crystals to realize a hard X-ray Laue lens has been done. We tested the diffraction properties of indented Si and Ge crystalline plates at European Synchrotron Radiation Facility (Grenoble, France). The samples were analyzed by diffraction of their (111) planes with hard X-rays from 150 to 600 keV. Crystals have shown significantly high diffraction efficiency, i.e. a Si crystal has exhibited up to 80% at 300 keV. A Ge crystal has confirmed the observation for a Si one, though the diffraction efficiency was about 60%. In both cases rocking curves showed flat-toped rectangular shapes, which demonstrates that the method of indentations evenly bends the crystals. Moreover, measured an...
Among the methods to focus photons the diffraction in crystals results as one of the most effective ...
We report the results obtained from the characterization of bent Silicon, Germanium and Gallium Arse...
A promising method of concentrating X- and soft γ-rays from celestial sources is a Laue lens. A new ...
We present an experimental study on the method of surface grooving for bending crystals for the real...
Silicon mono-crystals have been bent thanks to a series of parallel superficial indentations on one...
A Laue lens is an optical component to focus hard x-ray photons through Bragg diffraction in Laue ge...
Crystals with curved diffracting planes have been investigated as high-efficiency optical components...
The diffraction properties of a crystalline silicon plate of which one face was mechanically indente...
This thesis focuses on experimental work in which X-ray diffraction technique has been used to prob...
A germanium crystal was bent through a grid of superficial grooves, manufactured on the sample surfa...
(311) curved planes can be exploited for efficiently focus hard X-rays. With this purpose, a self-st...
A stacking of plate-like curved crystals is proposed as an optical element for realization of a high...
Curved crystals as optical elements for focusing X- and γ rays in a Laue lens Abstract This thesi...
A promising method of concentrating X- and soft γ-rays from celestial sources is a Laue lens. A new ...
In this paper we report progresses in the realization of self-standing bent crystals, which are suit...
Among the methods to focus photons the diffraction in crystals results as one of the most effective ...
We report the results obtained from the characterization of bent Silicon, Germanium and Gallium Arse...
A promising method of concentrating X- and soft γ-rays from celestial sources is a Laue lens. A new ...
We present an experimental study on the method of surface grooving for bending crystals for the real...
Silicon mono-crystals have been bent thanks to a series of parallel superficial indentations on one...
A Laue lens is an optical component to focus hard x-ray photons through Bragg diffraction in Laue ge...
Crystals with curved diffracting planes have been investigated as high-efficiency optical components...
The diffraction properties of a crystalline silicon plate of which one face was mechanically indente...
This thesis focuses on experimental work in which X-ray diffraction technique has been used to prob...
A germanium crystal was bent through a grid of superficial grooves, manufactured on the sample surfa...
(311) curved planes can be exploited for efficiently focus hard X-rays. With this purpose, a self-st...
A stacking of plate-like curved crystals is proposed as an optical element for realization of a high...
Curved crystals as optical elements for focusing X- and γ rays in a Laue lens Abstract This thesi...
A promising method of concentrating X- and soft γ-rays from celestial sources is a Laue lens. A new ...
In this paper we report progresses in the realization of self-standing bent crystals, which are suit...
Among the methods to focus photons the diffraction in crystals results as one of the most effective ...
We report the results obtained from the characterization of bent Silicon, Germanium and Gallium Arse...
A promising method of concentrating X- and soft γ-rays from celestial sources is a Laue lens. A new ...