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34 results on '"Chukalina M"'

1. Segmentation Criteria in the Problem of Porosity Determination based on CT Scans

Author

Kokhan, V., Grigoriev, M., Buzmakov, A., Uvarov, V., Ingacheva, A., Shvets, E., and Chukalina, M.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Porous materials are widely used in different applications, in particular they are used to create various filters. Their quality depends on parameters that characterize the internal structure such as porosity, permeability and so on. Computed tomography (CT) allows one to see the internal structure of a porous object without destroying it. The result of tomography is a gray image. To evaluate the desired parameters, the image should be segmented. Traditional intensity threshold approaches did not reliably produce correct results due to limitations with CT images quality. Errors in the evaluation of characteristics of porous materials based on segmented images can lead to the incorrect estimation of their quality and consequently to the impossibility of exploitation, financial losses and even to accidents. It is difficult to perform correctly segmentation due to the strong difference in voxel intensities of the reconstructed object and the presence of noise. Image filtering as a preprocessing procedure is used to improve the quality of segmentation. Nevertheless, there is a problem of choosing an optimal filter. In this work, a method for selecting an optimal filter based on attributive indicator of porous objects (should be free from 'levitating stones' inside of pores) is proposed. In this paper, we use real data where beam hardening artifacts are removed, which allows us to focus on the noise reduction process, Comment: ICMV 2019, 8 pages, 5 figures

Published
2019

3. Asymmetry with respect to the magnetic field direction in the interaction between the quantum states of two coupled superconducting rings

Author

Kuznetsov, V. I., Firsov, A. A., Dubonos, S. V., and Chukalina, M. V.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The interaction between the quantum states of two aluminum superconducting rings forming an 8-shape circular-asymmetric microstructure was examined under a threading magnetic flux and bias by an alternating current without a dc component. Quantum oscillations of the rectified dc voltage Vdc(B) as a function of magnetic field were measured in the 8-shape microstructure at various bias ac currents and temperatures close to critical. Fourier and wavelet analyses of Vdc(B) functions revealed the presence of various combination frequencies in addition to two ring fundamental frequencies, which suggests the interaction in the structure. Deviation of the Vdc(B) function from oddness with respect to the magnetic field direction was found for the first time., Comment: author english version, 3 pages, 3 figires, Proc. of the XXXIV Conference on Low-Temperature Physics "NT-34" (Russia, 2006)

Published
2007
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4. Excited two-dimensional magnetopolaron states in quantum well of resonant tunnel junction

Author

Ivanov, D. Yu., Chukalina, M. V., Takhtamirov, E. G., Dubrovskii, Yu. V., Eaves, L., Volkov, V. A., Vdovin, E. E., Portal, J. -C., Maude, D. K., Henini, M., and Hill, G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

Tunnel spectroscopy is used to probe the electronic structure in GaAs quantum well of resonant tunnel junction over wide range of energies and magnetic fields normal to layers. Spin degenerated high Landau levels ($N=2\div7$) are found to be drastically renormalised near energies when the longitudinal optical-phonon ($\hbar\omega_{LO}$) and cyclotron energy ($\hbar\omega_{C}$) are satisfied condition $\hbar\omega_{LO}=m\hbar\omega_{C}$, where $m=1,2,3$. This renormalisation is attributed to formation of resonant magnetopolarons, i.e. mixing of high index Landau levels by strong interaction of electrons at Landau level states with LO-phonons., Comment: 4 pages, 3 eps figures, revtex4

Published
2005

5. High resolution 3D visualization of the spinal cord in a post-mortem murine model

Author

Bukreeva, I, Asadchikov, V, Buzmakov, A, Chukalina, M, Ingacheva, A, Korolev, N, Bravin, A, Mittone, A, Biella, G, Sierra, A, Brun, F, Massimi, L, Fratini, M, Cedola, A, Bukreeva I, Asadchikov V, Buzmakov A, Chukalina M, Ingacheva A, Korolev NA, Bravin A, Mittone A, Biella GEM, Sierra A, Brun F, Massimi L, Fratini M, Cedola A, Bukreeva, I, Asadchikov, V, Buzmakov, A, Chukalina, M, Ingacheva, A, Korolev, N, Bravin, A, Mittone, A, Biella, G, Sierra, A, Brun, F, Massimi, L, Fratini, M, Cedola, A, Bukreeva I, Asadchikov V, Buzmakov A, Chukalina M, Ingacheva A, Korolev NA, Bravin A, Mittone A, Biella GEM, Sierra A, Brun F, Massimi L, Fratini M, and Cedola A

Abstract

A crucial issue in the development of therapies to treat pathologies of the central nervous system is represented by the availability of non-invasive methods to study the threedimensional morphology of spinal cord, with a resolution able to characterize its complex vascular and neuronal organization. X-ray phase contrast micro-tomography enables a highquality, 3D visualization of both the vascular and neuronal network simultaneously without the need of contrast agents, destructive sample preparations or sectioning. Until now, high resolution investigations of the post-mortem spinal cord in murine models have mostly been performed in spinal cords removed from the spinal canal. We present here post-mortem phase contrast micro-tomography images reconstructed using advanced computational tools to obtain high-resolution and high-contrast 3D images of the fixed spinal cord without removing the bones and preserving the richness of micro-details available when measuring exposed spinal cords. We believe that it represents a significant step toward the in-vivo application. (C) 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Published
2020

7. Revisiting the local structure in Ge-Sb-Te based chalcogenide superlattices

Author

Casarin, B., Caretta, A., Momand, J., Kooi, B. J., Verheijen, M.A., Bragaglia, V., Calarco, R., Chukalina, M., Yu, X., Robertson, J., Lange, F.R.L., Wuttig, M., Redaelli, A., Varesi, E., Parmigiani, F., Malvestuto, M., Casarin, B., Caretta, A., Momand, J., Kooi, B. J., Verheijen, M.A., Bragaglia, V., Calarco, R., Chukalina, M., Yu, X., Robertson, J., Lange, F.R.L., Wuttig, M., Redaelli, A., Varesi, E., Parmigiani, F., and Malvestuto, M.

Abstract

The technological success of phase-change materials in the field of data storage and functional systems stems from their distinctive electronic and structural peculiarities on the nanoscale. Recently, superlattice structures have been demonstrated to dramatically improve the optical and electrical performances of these chalcogenide based phase-change materials. In this perspective, unravelling the atomistic structure that originates the improvements in switching time and switching energy is paramount in order to design nanoscale structures with even enhanced functional properties. This study reveals a high- resolution atomistic insight of the [GeTe/Sb2Te3] interfacial structure by means of Extended X-Ray Absorption Fine Structure spectroscopy and Transmission Electron Microscopy. Based on our results we propose a consistent novel structure for this kind of chalcogenide superlattices.

Published
2016

8. Improving Resolution in k and r Space: A FEFF-based Wavelet for EXAFS Data Analysis

Author

Funke, H., Chukalina, M., Voegelin, A., Scheinost, A., Funke, H., Chukalina, M., Voegelin, A., and Scheinost, A.

Abstract

Applying the wavelet analysis of Extended X-Ray Absorption Fine Structure (EXAFS) spectra to a Zn-Al layered double hydroxide, we could unequivocally identify the presence of Al and Zn atoms at the same distance of r ≈ 3 Å from the central Zn atom. The focused paths (including MS) at r ≈ 5 - 6 Å (2nd and 3th metal shell) show also both Al and Zn for all LDH spectra. With the newly developed FEFF-Morlet wavelet it is possible to resolve the two shells individually. The result is, that the 2nd shell not contains Al. This confirms directly the homogeneity of the Al - Zn distribution. No significant differences were found by shell fit- and wavelet analysis between the EXAFS spectra of pure Zn-,Co- or Ni LDH on the one hand and the mixed Zn/Co and Zn/Ni LDH on the other hand.

Published
2007

11. A new FEFF-based wavelet for EXAFS data analysis

Author

Funke, H., Chukalina, M., Scheinost, A., Funke, H., Chukalina, M., and Scheinost, A.

Abstract

A new mother wavelet function for extended X-ray absorption fine-structure (EXAFS) data analysis has been designed, combining a model EXAFS function derived from the ab initio EXAFS code FEFF8.20 and the complex Morlet wavelet. This new FEFF–Morlet mother wavelet routine allows the generation of wavelets well adapted to specific EXAFS problems. A substantial gain in resolution of the wavelet ridges in k and r space is achieved. The method is applied to a structural problem of Zn–Al double-layer hydroxides, demonstrating unequivocally the homogeneity of the metal cation distribution in the hydroxide layers.

Published
2007

15. Improving Resolution in k and r Space: A FEFF-based Wavelet for EXAFS Data Analysis

Author

Funke, H., Chukalina, M., Voegelin, A., Scheinost, A., Funke, H., Chukalina, M., Voegelin, A., and Scheinost, A.

Abstract

Applying the wavelet analysis of Extended X-Ray Absorption Fine Structure (EXAFS) spectra to a Zn-Al layered double hydroxide, we could unequivocally identify the presence of Al and Zn atoms at the same distance of r ≈ 3 Å from the central Zn atom. The focused paths (including MS) at r ≈ 5 - 6 Å (2nd and 3th metal shell) show also both Al and Zn for all LDH spectra. With the newly developed FEFF-Morlet wavelet it is possible to resolve the two shells individually. The result is, that the 2nd shell not contains Al. This confirms directly the homogeneity of the Al - Zn distribution. No significant differences were found by shell fit- and wavelet analysis between the EXAFS spectra of pure Zn-,Co- or Ni LDH on the one hand and the mixed Zn/Co and Zn/Ni LDH on the other hand.

Published
2006

18. Wavelet analysis of EXAFS Data

Author

Funke, H., Chukalina, M., Hennig, C., Rossberg, A., Scheinost, A., Funke, H., Chukalina, M., Hennig, C., Rossberg, A., and Scheinost, A.

Abstract

wird nachgereicht

Published
2005

19. Wavelet analysis of Extendet X-ray Absorption Fine Structure Data

Author

Funke, H., Chukalina, M., Rossberg, A., Funke, H., Chukalina, M., and Rossberg, A.

Abstract

Extended Xray absorption fine structure data evaluation usually begins with the Fourier transform of the spectrum. We suggest the wavelet transform as a complement to the Fourier transform. While the Fourier transform analyzes the distances to the backscattering atoms, wavelet transform additionally reveals the wavenumber dependence of the scattering. Thus wavelet analysis can differentiate between heavier and lighter backscattering atoms, even if they are almost equidistant from the central atom. First the method of operation and the advantage of the wavelet analysis will be demonstrated by simple models. Then it is applied to the interpretation of extended Xray absorption fine structure spectra concerning the complexation of UraniumVI with the carboxylic groups acetic, formic, and glycolic acid. The wavelet transform analysis suggests clearly for the system Uraniumformic acid both, UU and UCC, structural elements. In contrast to the clear separation of different scattering paths by wavelet transform, Fourier transform analysis was not able to resolve the two different backscattering processes.

Published
2005

23. X-ray tomography: how to evaluate the reconstruction quality?

Author

Chukalina, M., Golosio, B., Simionovici, A., Funke, H., Chukalina, M., Golosio, B., Simionovici, A., and Funke, H.

Abstract

Different reconstruction techniques are used to reconstruct the distribution of the physical characteristics, describing a sample under investigation, from a set of tomographic projections. We present a technique for the evaluation of the reconstruction quality. The technique is based on the comparison of two images (phantom and reconstructed image) by means of the correlation coefficient and of the mean square error between them. In parallel, the correlation coefficient and mean square error are calculated for the wavelet transforms of the phantom and reconstructed images. The scales for the wavelet transform are chosen in agreement with the major geometric parameters of the phantom. Then the correlation coefficient of the wavelet transform with the chosen scale yields an evaluation of the quality of the phantom parameters reconstruction. The accuracy of the parameters reconstruction is determined by the mean square error for the selected scale. The phantom used for the analysis is a medium with randomly distributed grains. The distribution is characterized by two parameters: grain size and grain density (average number of grains per unit area). The parameters are used as the scales for the wavelet transform calculation. We make a comparison of the Algebraic Reconstruction Technique (ART) and the Filtered Back Projection Algorithm.

Published
2004

24. Wavelet analysis and its application to the Tunneling and X-ray spectroscopy

Author

Chukalina, M., Funke, H., Dubrovskii, Y., Chukalina, M., Funke, H., and Dubrovskii, Y.

Abstract

The capabilities and limitations of wavelet analysis are demonstrated for the illustrative case of two practial applications: investigation of magneto-tunneling signals and the extended x-ray absorption fine structure (EXAFS) of uranium. A brief introduction to wavelet analysis is given. The term "window size" of the mother wavelet function is defined; this concept underlies one of the ideas for a criterion of optimal choice of the mother wavelet function. The capabilities of a software package developed by the authors are demonstrated; this software was used for all the calculations done in the course of this study.

Published
2004

25. Deformation and Viscouse Flow in Nano-Imprinting

Author

RUSSIAN ACADEMY OF SCIENCES CHERNOGOLOVKA (RUSSIA) INST OF MICROELECTRONICS TECHNOLOGY, Chukalina, M. V., Matveev, V. N., Sirotkin, V. V., Svintsov, A. A., Zaitsev, S. SI., RUSSIAN ACADEMY OF SCIENCES CHERNOGOLOVKA (RUSSIA) INST OF MICROELECTRONICS TECHNOLOGY, Chukalina, M. V., Matveev, V. N., Sirotkin, V. V., Svintsov, A. A., and Zaitsev, S. SI.

Abstract

The paper is concentrated on the theoretical consideration of imprinting process and of polymer flow during embossing of the master. Another activity was related to development of experimental techniques for performing imprinting., Pres: 8th Int Symp Nanostructures: Physics and Technology, St Petersburg, Russia, 19-23 Jun 2000, p121-124. This article is from ADA407315 Nanostructures: Physics and Technology International Symposium (8th) Held in St. Petersburg, Russia on June 19-23, 2000 Proceedings

Published
2000

26. High resolution 3D visualization of the spinal cord in a post-mortem murine model

Author

Alessia Cedola, Inna Bukreeva, Victor E. Asadchikov, Gabriele Biella, Francesco Brun, Marina Chukalina, Michela Fratini, Alexey Buzmakov, Lorenzo Massimi, Alberto Bravin, Alberto Mittone, N. A. Korolev, Anastasya Ingacheva, Alejandra Sierra, Bukreeva, I., Asadchikov, V., Buzmakov, A., Chukalina, M., Ingacheva, A., Korolev, N. A., Bravin, A., Mittone, A., Biella, G. E. M., Sierra, A., Brun, F., Massimi, L., Fratini, M., Cedola, A., Bukreeva, I, Asadchikov, V, Buzmakov, A, Chukalina, M, Ingacheva, A, Korolev, N, Bravin, A, Mittone, A, Biella, G, Sierra, A, Brun, F, Massimi, L, Fratini, M, and Cedola, A

Subjects
Phase contrast microscopy, Central nervous system, Imaging technique, FIS/07 - FISICA APPLICATA (A BENI CULTURALI, AMBIENTALI, BIOLOGIA E MEDICINA), High resolution, Imaging techniques, 01 natural sciences, Article, law.invention, 010309 optics, 03 medical and health sciences, Image processing, Phase contrast, law, 0103 physical sciences, medicine, Spinal canal, Neuronal organization, Phase retrieval, 030304 developmental biology, 0303 health sciences, business.industry, X ray computed tomography, X ray imaging, Spinal cord, Atomic and Molecular Physics, and Optics, Visualization, medicine.anatomical_structure, Murine model, spinal cord, mice, phase contrast imaging, business, Biotechnology, Biomedical engineering
Abstract

A crucial issue in the development of therapies to treat pathologies of the central nervous system is represented by the availability of non-invasive methods to study the threedimensional morphology of spinal cord, with a resolution able to characterize its complex vascular and neuronal organization. X-ray phase contrast micro-tomography enables a highquality, 3D visualization of both the vascular and neuronal network simultaneously without the need of contrast agents, destructive sample preparations or sectioning. Until now, high resolution investigations of the post-mortem spinal cord in murine models have mostly been performed in spinal cords removed from the spinal canal. We present here post-mortem phase contrast micro-tomography images reconstructed using advanced computational tools to obtain high-resolution and high-contrast 3D images of the fixed spinal cord without removing the bones and preserving the richness of micro-details available when measuring exposed spinal cords. We believe that it represents a significant step toward the in-vivo application. (C) 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Published
2019

27. Applicability and potential of monitored reconstruction in computed tomography.

Author

Gilmanov M, Bulatov K, Bugai O, Ingacheva A, Chukalina M, Nikolaev D, and Arlazarov V

Subjects
Phantoms, Imaging, Algorithms, Humans, Tomography, X-Ray Computed methods, Image Processing, Computer-Assisted methods
Abstract

Monitored tomographic reconstruction (MTR) is a potentially powerful tool for dose and time reduction in computed tomography scanning. We are the first to study the issue of practical implementation of MTR protocols in current-generation real-life instruments. We propose an empirical quantitative model for calculating acquisition and reconstruction times. It is demonstrated that projection acquisition order has a significant impact on the time and dose of tomographic experiments. The new alternative acquisition most suitable for MTR protocols is proposed. To estimate the restrictions and scope of applicability for MTR four typical commercial setups are studied within a proposed model. We construct an experimental stand for achieving a real-time reconstruction, together with validation of the proposed acquisition time model. We demonstrate that real-time reconstruction may be implemented without slowing down an acquisition process. An optimization of reconstruction from partial data is proposed, which allowed the production of 385 and 440 reconstructions for standard and proposed acquisition orders correspondingly during a single acquisition of 512 projections. The results of the study demonstrate that with proposed optimizations MTR can be effectively utilized for practical applications using the current generation of existing setups in industrial and nano tomography fields., Competing Interests: NO authors have competing interests., (Copyright: © 2024 Gilmanov et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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28. Adaptive automated sinogram normalization for ring artifacts suppression in CT.

Author

Kazimirov D, Polevoy D, Ingacheva A, Chukalina M, and Nikolaev D

Abstract

Ring artifacts pose a major barrier to obtaining precise reconstruction in computed tomography (CT). The presence of ring artifacts complicates the use of automatic means of processing CT reconstruction results, such as segmentation, correction of geometric shapes, alignment of reconstructed volumes. Although there are numerous efficient methods for suppressing ring artifacts, many of them appear to be manual. Along with this, a large proportion of the automatic methods cope unsatisfactorily with the target task while requiring computational capacity. The current work introduces a projection data preprocessing method for suppressing ring artifacts that constitutes a compromise among the outlined aspects - automaticity, high efficiency and computational speed. Derived as the automation of the classical sinogram normalization method, the proposed method specific advantages consist in adaptability in relation to the filtered sinograms and the edge-preservation property proven within the experiments on both synthetic and real CT data. Concerning the challenging open-access data, the method has performed superior quality comparable to that of the advanced methods: it has demonstrated 70.4% ring artifacts suppression percentage (RASP) quality metric. In application to our real laboratory CT data, the proposed method allowed us to gain significant refinement of the reconstruction quality which has not been surpassed by a range of compared manual ring artifacts suppression methods.

Published
2024
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29. Crystal Analyzer Based Multispectral Microtomography Using CCD-Sensor.

Author

Grigoriev M, Zolotov D, Ingacheva A, Buzmakov A, Dyachkova I, Asadchikov V, and Chukalina M

Abstract

To solve the problems of spectral tomography, an X-ray optical scheme was proposed, using a crystal analyzer in Laue geometry between the sample and the detector, which allowed for the selection of predetermined pairs of wavelengths from the incident polychromatic radiation to obtain projection images. On a laboratory X-ray microtomography setup, an experiment was carried out for the first time where a mixture of micro-granules of sodium chloride NaCl, silver behenate AgC 22 H 43 O 2 , and lithium niobate LiNbO 3 was used as a test sample to identify their spatial arrangement. The elements were chosen based on the presence of absorption edges in two of the elements in the energy range of the polychromatic spectrum of the probing radiation. The method of projection distortion correction was used to preprocess the obtained projections. To interpret the obtained reconstruction results, the segmentation method based on the analysis of joint histograms was used. This allowed us to identify each of the three substances. To compare the results obtained, additional "reference" tomographic measurements were performed: one in polychromatic and two in monochromatic (MoK α -, MoK β -lines) modes. It took three times less time for the tomographic experiment with the crystal analyzer, while the reconstruction accuracy was comparable to that of the "reference" tomography.

Published
2023
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30. Deep Learning-Based Segmentation of Post-Mortem Human's Olfactory Bulb Structures in X-ray Phase-Contrast Tomography.

Author

Meshkov A, Khafizov A, Buzmakov A, Bukreeva I, Junemann O, Fratini M, Cedola A, Chukalina M, Yamaev A, Gigli G, Wilde F, Longo E, Asadchikov V, Saveliev S, and Nikolaev D

Subjects
Humans, Neural Networks, Computer, Tomography, X-Ray Computed, X-Rays, Deep Learning, Olfactory Bulb diagnostic imaging
Abstract

The human olfactory bulb (OB) has a laminar structure. The segregation of cell populations in the OB image poses a significant challenge because of indistinct boundaries of the layers. Standard 3D visualization tools usually have a low resolution and cannot provide the high accuracy required for morphometric analysis. X-ray phase contrast tomography (XPCT) offers sufficient resolution and contrast to identify single cells in large volumes of the brain. The numerous microanatomical structures detectable in XPCT image of the OB, however, greatly complicate the manual delineation of OB neuronal cell layers. To address the challenging problem of fully automated segmentation of XPCT images of human OB morphological layers, we propose a new pipeline for tomographic data processing. Convolutional neural networks (CNN) were used to segment XPCT image of native unstained human OB. Virtual segmentation of the whole OB and an accurate delineation of each layer in a healthy non-demented OB is mandatory as the first step for assessing OB morphological changes in smell impairment research. In this framework, we proposed an effective tool that could help to shed light on OB layer-specific degeneration in patients with olfactory disorder.

Published
2022
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31. Monitored Tomographic Reconstruction-An Advanced Tool to Study the 3D Morphology of Nanomaterials.

Author

Bulatov K, Chukalina M, Kutukova K, Kohan V, Ingacheva A, Buzmakov A, Arlazarov VV, and Zschech E

Abstract

Detailed and accurate three-dimensional (3D) information about the morphology of hierarchically structured materials is derived from multi-scale X-ray computed tomography (XCT) and subsequent 3D data reconstruction. High-resolution X-ray microscopy and nano-XCT are suitable techniques to nondestructively study nanomaterials, including porous or skeleton materials. However, laboratory nano-XCT studies are very time-consuming. To reduce the time-to-data by more than an order of magnitude, we propose taking advantage of a monitored tomographic reconstruction. The benefit of this new protocol for 3D imaging is that the data acquisition for each projection is interspersed by image reconstruction. We demonstrate this new approach for nano-XCT data of a novel transition-metal-based materials system: MoNi 4 electrocatalysts anchored on MoO 2 cuboids aligned on Ni foam (MoNi 4 /MoO 2 @Ni). Quantitative data that describe the 3D morphology of this hierarchically structured system with an advanced electrocatalytically active nanomaterial are needed to tailor performance and durability of the electrocatalyst system. We present the framework for monitored tomographic reconstruction, construct three stopping rules for various reconstruction quality metrics and provide their experimental evaluation.

Published
2021
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32. Enhanced Tomographic Sensing Multimodality with a Crystal Analyzer.

Author

Buzmakov A, Chukalina M, Dyachkova I, Ingacheva A, Nikolaev D, Zolotov D, and Schelokov I

Abstract

This article demonstrates how a combination of well-known tools-a standard 2D detector (CCD (charge-coupled device) camera) and a crystal analyzer-can improve the multimodality of X-ray imaging and tomographic sensing. The use of a crystal analyzer allowed two characteristic lines of the molybdenum anode-Kα and Kβ-to be separated from the polychromatic radiation of the conventional X-ray tube. Thus, as a result of one measurement, three radiographic projections (images) were simultaneously recorded. The projection images at different wavelengths were separated in space and registered independently for further processing, which is of interest for the spectral tomography method. A projective transformation to compensate for the geometric distortions that occur during asymmetric diffraction was used. The first experimental results presented here appear promising.

Published
2020
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33. High resolution 3D visualization of the spinal cord in a post-mortem murine model.

Author

Bukreeva I, Asadchikov V, Buzmakov A, Chukalina M, Ingacheva A, Korolev NA, Bravin A, Mittone A, Biella GEM, Sierra A, Brun F, Massimi L, Fratini M, and Cedola A

Abstract

A crucial issue in the development of therapies to treat pathologies of the central nervous system is represented by the availability of non-invasive methods to study the three-dimensional morphology of spinal cord, with a resolution able to characterize its complex vascular and neuronal organization. X-ray phase contrast micro-tomography enables a high-quality, 3D visualization of both the vascular and neuronal network simultaneously without the need of contrast agents, destructive sample preparations or sectioning. Until now, high resolution investigations of the post-mortem spinal cord in murine models have mostly been performed in spinal cords removed from the spinal canal. We present here post-mortem phase contrast micro-tomography images reconstructed using advanced computational tools to obtain high-resolution and high-contrast 3D images of the fixed spinal cord without removing the bones and preserving the richness of micro-details available when measuring exposed spinal cords. We believe that it represents a significant step toward the in-vivo application., Competing Interests: The authors declare no competing financial and/or non-financial interests., (© 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.)

Published
2020
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34. Revisiting the Local Structure in Ge-Sb-Te based Chalcogenide Superlattices.

Author

Casarin B, Caretta A, Momand J, Kooi BJ, Verheijen MA, Bragaglia V, Calarco R, Chukalina M, Yu X, Robertson J, Lange FR, Wuttig M, Redaelli A, Varesi E, Parmigiani F, and Malvestuto M

Abstract

The technological success of phase-change materials in the field of data storage and functional systems stems from their distinctive electronic and structural peculiarities on the nanoscale. Recently, superlattice structures have been demonstrated to dramatically improve the optical and electrical performances of these chalcogenide based phase-change materials. In this perspective, unravelling the atomistic structure that originates the improvements in switching time and switching energy is paramount in order to design nanoscale structures with even enhanced functional properties. This study reveals a high- resolution atomistic insight of the [GeTe/Sb2Te3] interfacial structure by means of Extended X-Ray Absorption Fine Structure spectroscopy and Transmission Electron Microscopy. Based on our results we propose a consistent novel structure for this kind of chalcogenide superlattices.

Published
2016
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