The dynamical theory of diffraction in a crystal modulated by a surface acoustic wave in the case of spatially restricted X-ray beams

Пунегов, В. И.

doi:10.1107/s1600576719012603

Cited by 2 publications

(1 citation statement)

References 32 publications

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“…The theory of dynamical Laue diffraction of X-rays in crystals was developed for a plane spatially infinite X-ray wave (Authier, 2001). However, for numerical simulation of Laue diffraction in a single crystal with sharp vertical channels the formalism of spatially restricted X-ray beams should be implemented, which was previously developed only for the Bragg geometry (Punegov et al, 2017;Punegov, 2019) For calculation of the angular distribution of diffraction intensity for symmetrical Laue geometry we will apply the numerical solution of the Takagi-Taupin equations (Takagi, 1962;Taupin, 1964) in the oblique-angled coordinate system: 2 sin(2# B )!/ is the angular parameter, ! is the deviation of the X-ray beam from the Bragg angle # B , is the wavelength of the X-ray radiation in vacuum, C is a polarization factor, and g = Àr 0 2 F g /(V c ) are the Fourier components of the X-ray polarizability with index g = 0, h, Àh.…”

Section: Simulation Of the Laue Diffractionmentioning

confidence: 99%

Laue X-ray diffraction studies of the structural perfection of Al-doped thermomigration channels in silicon

2021

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Si(111) wafers patterned with an array of vertical 100 µm-wide Al-doped (1 × 1019 cm−3) p-channels extending through the whole wafer were studied by X-ray Laue diffraction techniques. The X-ray techniques included projection topography, and measurement of rocking curves and cross sections in the vicinity of the 02\overline 2 reciprocal space node in the double- and triple-crystal geometry, respectively. The channels are uniform along the depth of the wafer, and their structural perfection is comparable to that of the silicon matrix between the channels. Simulation of the rocking curves was performed using the methods of the dynamical theory of X-ray diffraction. The rocking-curve calculations both taking into account and neglecting the effect of the instrumental function were carried out using the Takagi–Taupin equations. The calculated angular dependences of intensities of both diffracted and transmitted X-rays correspond well to the experimentally obtained rocking curves and demonstrate their high sensitivity to the structural distortions in the channel. An unambiguous reconstruction of strain and structural distortions in the Si(Al) channel using the Laue diffraction data requires further development of the theoretical model.

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Section: Simulation Of the Laue Diffractionmentioning

confidence: 99%

Laue X-ray diffraction studies of the structural perfection of Al-doped thermomigration channels in silicon

2021

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X-ray microbeam diffraction in a crystal

Пунегов¹,

Karpov²

2021

Acta Crystallogr A Found Adv

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Using the formalism of dynamical scattering of spatially restricted X-ray fields, the diffraction of a microbeam in a crystal with boundary functions for the incident and reflected amplitudes was studied in the case of geometrical optics and the Fresnel approximation (FA). It is shown that, for a wide front of the X-ray field, the angular distributions of the scattered intensity in the geometrical optics approximation (GOA) and the FA are approximately the same. On the other hand, it is established that, for a narrow exit slit in the diffraction scheme, it is always necessary to take into account the X-ray diffraction at the slit edges. Reciprocal-space maps and the distribution of the diffraction intensity of the microbeam inside the crystal were calculated.

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The dynamical theory of diffraction in a crystal modulated by a surface acoustic wave in the case of spatially restricted X-ray beams

Cited by 2 publications

References 32 publications

Laue X-ray diffraction studies of the structural perfection of Al-doped thermomigration channels in silicon

Laue X-ray diffraction studies of the structural perfection of Al-doped thermomigration channels in silicon

X-ray microbeam diffraction in a crystal

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