Dynamical Theory of X-Ray Diffraction

Authier, A.

doi:10.1093/acprof:oso/9780198528920.001.0001

Cited by 392 publications

(715 citation statements)

References 1,549 publications

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“…where Λ 0 is the extinction length as defined in Authier (2001) for the Laue symmetric case. The integrated reflectivity H M depends on the energy of the beam that is considered.…”

Section: Case 1: Mosaic Crystalsmentioning

confidence: 99%

Laue lens for astrophysics: Extensive comparison between mosaic, curved, and quasi-mosaic crystals

Camattari

2016

A&A

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With the aim of concentrating hard X-and γ-rays coming from celestial sources in the 100-1000 keV energy range, the concept of Laue lens was introduced more than 50 years ago. Crystals are the core of a Laue lens, since they focus the incoming X-rays through Bragg diffraction. For concrete applications, crystals characterized by high diffraction reflectivity are needed along with high-resolution focusing of diffracted photons. Here, an extensive comparison of the types of crystals proposed so far is presented. In order to quantify the focusing capability of a Laue lens based on these crystals, a simulation of a single-ring Laue lens based on the considered optical elements is presented. Finally, the breakthrough in the panorama of diffracting crystals is discussed.

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“…where Λ 0 is the extinction length as defined in Authier (2001) for the Laue symmetric case. The integrated reflectivity H M depends on the energy of the beam that is considered.…”

Section: Case 1: Mosaic Crystalsmentioning

confidence: 99%

Laue lens for astrophysics: Extensive comparison between mosaic, curved, and quasi-mosaic crystals

Camattari

2016

A&A

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“…where the first factor is the diffraction efficiency and the latter is the attenuation factor due to absorption throughout the sample, μ is the linear absorption coefficient, d hkl the d-spacing of planes (hkl), θ B the Bragg angle, and Λ 0 the extinction length as defined by (Authier 2001) for the Laue symmetric case. Ω QM represents the bending angle of the CDPs, namely of the QM planes.…”

Section: Simulation Of a Laue Lens With Qm Crystalsmentioning

confidence: 99%

Proposal for a Laue lens relying on hybrid quasi-mosaic curved crystals

Bellucci

Camattari

Guidi

2013

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A promising method of concentrating X-and soft γ-rays from celestial sources is a Laue lens. A new scheme for this lens, relying on diffraction in curved Si and Ge crystals, is introduced here. The proposed Laue lens is based on high-efficiency diffraction of curved (111) or (224) crystalline planes, which are bent through quasi-mosaic effect. While diffraction in curved (111) quasi-mosaic crystals is well known and has recently been proposed for a Laue lens, diffraction by quasi-mosaic (224) planes is suggested and demonstrated here through experimental work carried out at the Institut Laue-Langevin (ILL, Grenoble, France) at DIGRA, a facility specifically built for characterizing instrumentation in Astrophysics. Results show that the diffraction efficiency in the (224) quasimosaic sample is amplified by more than one order of magnitude with respect to an equivalent crystal without quasi-mosaic effect. The lens has been designed in such a way as to maximize and smoothen its sensitivity, thanks to a custom-made code based on a genetic algorithm.

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“…Variations within Δd/d ~ 10 -5 are very apparent. The extinction depth (that is the depth to which x-rays penetrate during diffraction) [19][20][21] has values varying from 1 μm to 50 μm. So, the detected Δd/d, caused by dislocations, precipitates or even structures due to the insufficient etching, lies very close to the surface.…”

Section: X-ray Topography and Rocking Curve Measurementsmentioning

confidence: 99%