Imaging quality analysis of a KBA x-ray microscope working at grazing incidence

ABSTRACTA microstructural study on surfactant templated silica films is performed by coupling traditional X-Ray Diffraction (XRD) and Transmission Electronic Microscopy (TEM) to Grazing Incidence Small Angle X-Ray Scattering (GISAXS). By this method it is shown that spin-coating of silicate solutions with cationic surfactant cetyltrimethylammonium bromide (CTAB) as a templating agent provides 3D hexagonal structure (space group P63/mmc) that is no longer compatible with the often described hexagonal arrangement of tubular micelles but rather with an hexagonal arrangement of spherical micelles. The extent of the hexagonal ordering and the texture can be optimized in films by varying the composition of the solution.

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Image Quality Analysis of X-ray Grating Interferometer Using Integrating-bucket Method

Journal of Imaging Science and Technology ◽

10.2352/j.imagingsci.technol.2020.64.2.020503 ◽

2020 ◽

Vol 64 (2) ◽

pp. 20503-1-20503-5

Author(s):

Faiz Wali ◽

Shenghao Wang ◽

Ji Li ◽

Jianheng Huang ◽

Yaohu Lei ◽

...

Keyword(s):

Image Quality ◽

Phase Contrast ◽

Quality Analysis ◽

Phase Contrast Imaging ◽

Phase Image ◽

Contrast Imaging ◽

High Quality ◽

Image Quality Analysis ◽

X Ray ◽

Grating Interferometer

Abstract Grating-based x-ray phase-contrast imaging has the potential to enhance image quality and provide inner structure details non-destructively. In this work, using grating-based x-ray phase-contrast imaging system and employing integrating-bucket method, the quantitative expressions of signal-to-noise ratios due to photon statistics and mechanical error are analyzed in detail. Photon statistical noise and mechanical error are the main sources affecting the image noise in x-ray grating interferometry. Integrating-bucket method is a new phase extraction method translated to x-ray grating interferometry; hence, its image quality analysis would be of great importance to get high-quality phase image. The authors’ conclusions provide an alternate method to get high-quality refraction signal using grating interferometer, and hence increases applicability of grating interferometry in preclinical and clinical usage.

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X-Ray Fluorescence Spectrometer with Geometry of Grazing Incidence X-ray Radiation

Физические основы приборостроения ◽

10.25210/jfop-1202-078082 ◽

2012 ◽

Vol 1 (2) ◽

pp. 78-82

Author(s):

N.M. Novikovskii ◽

◽

V.M. Raznomazov ◽

V.O. Ponomarenko ◽

D.A. Sarychev ◽

...

Keyword(s):

Grazing Incidence ◽

X Ray ◽

Fluorescence Spectrometer

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Quantifying Multiple Crystallite Orientations and Crystal Heterogeneities in Complex Thin Film Materials

10.26434/chemrxiv.8126633.v1 ◽

2019 ◽

Cited By ~ 2

Author(s):

Jonathan Ogle ◽

Daniel Powell ◽

Eric Amerling ◽

Detlef Matthias Smilgies ◽

Luisa Whittaker-Brooks

Keyword(s):

Thin Film ◽

Thin Films ◽

Structural Design ◽

Grazing Incidence ◽

Crystallite Orientation ◽

Miller Index ◽

X Ray ◽

X Ray Scattering ◽

Orientation Distributions ◽

Orientation Information

<p>Thin film materials have become increasingly complex in morphological and structural design. When characterizing the structure of these films, a crucial field of study is the role that crystallite orientation plays in giving rise to unique electronic properties. It is therefore important to have a comparative tool for understanding differences in crystallite orientation within a thin film, and also the ability to compare the structural orientation between different thin films. Herein, we designed a new method dubbed the mosaicity factor (MF) to quantify crystallite orientation in thin films using grazing incidence wide-angle X-ray scattering (GIWAXS) patterns. This method for quantifying the orientation of thin films overcomes many limitations inherent in previous approaches such as noise sensitivity, the ability to compare orientation distributions along different axes, and the ability to quantify multiple crystallite orientations observed within the same Miller index. Following the presentation of MF, we proceed to discussing case studies to show the efficacy and range of application available for the use of MF. These studies show how using the MF approach yields quantitative orientation information for various materials assembled on a substrate.<b></b></p>

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Grazing incidence small angle X-ray scattering from nanoparticles: beyond classical analysis approximations

Acta Crystallographica Section A Foundations of Crystallography ◽

10.1107/s0108767305082607 ◽

2005 ◽

Vol 61 (a1) ◽

pp. c411-c411

Author(s):

R. Lazzari ◽

G. Renaud ◽

F. Leroy

Keyword(s):

Small Angle ◽

Grazing Incidence ◽

Classical Analysis ◽

X Ray ◽

X Ray Scattering ◽

Ray Scattering

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Strain Relaxation and In-Situ Observation of Voiding in Passivated Aluminum Alloy Lines.

MRS Proceedings ◽

10.1557/proc-308-249 ◽

1993 ◽

Vol 308 ◽

Cited By ~ 3

Author(s):

Paul R. Besser ◽

Thomas N. Marieb ◽

John C. Bravman

Keyword(s):

Strain Relaxation ◽

Grazing Incidence ◽

Scanning Transmission Electron Microscope ◽

In Situ Observation ◽

X Ray ◽

Scanning Transmission ◽

Length Width ◽

Measured Strain ◽

Ray Geometry

ABSTRACTStrain relaxation in passivated Al-0.5% Cu lines was measured using X-ray diffraction coupled with in-situ observation of the formation and growth of stress induced voids. Samples of 1 μm thick Al-0.5% Cu lines passivated with Si3N4 were heated to 380ºC, then cooled and held at 150ºC. During the test, principal strains along the length, width, and height of the line were determined using a grazing incidence x-ray geometry. From these measurements the hydrostatic strain in the metal was calculated and strain relaxation was observed. The thermal cycle was duplicated in a high voltage scanning transmission electron microscope equipped with a backscattered electron detector. The 1.25 μm wide lines were seen to have initial stress voids. Upon heating these voids reduced in size until no longer observable. Once the samples were cooled to 150ºC, voids reappeared and grew. The measured strain relaxation is discussed in terms of void and θ-phase (Al2Cu) formation.

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