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186 results on '"S. Lagomarsino"'

151. Submicrometre resolution phase-contrast radiography with the beam from an X-ray waveguide

Author

S. Di Fonzo, Peter Cloetens, S. Lagomarsino, Werner Jark, C. Riekel, Alessia Cedola, and G. Soullié

Subjects
Nuclear and High Energy Physics, Radiation, Materials science, business.industry, Physics, Radiography, media_common.quotation_subject, Phase contrast microscopy, Resolution (electron density), X-ray, Waveguide (optics), law.invention, Optics, law, Contrast (vision), business, Instrumentation, Optical path length, Beam (structure), media_common
Abstract

Experimental data with unprecedented submicrometre resolution obtained in a phase-contrast radiography experiment in a magnifying configuration are presented. The term `phase contrast' here indicates that the phase retardation of coherent light in matter was utilized as the contrast mechanism. The coherent and divergent beam exiting an X-ray waveguide was used in a lensless configuration to magnify spatial variations in optical path length up to several hundred times. The defocused image of a nylon fibre was measured with a resolution of 0.14 µm at the object. Sufficient contrast was found for exposure times of 0.1 s, i.e. in the regime for real-time studies.

152. Sub-micrometre coherent beams from X-ray waveguides: principles and applications

Author

S. Di Fonzo, Alessia Cedola, Werner Jark, S. Lagomarsino, and G. Soullié

Subjects
Fabrication, Acoustics and Ultrasonics, Chemistry, business.industry, Physics::Optics, Synchrotron radiation, Degree of coherence, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Monocrystalline silicon, Optics, law, business, Waveguide, Image resolution, Beam (structure), Coherence (physics)
Abstract

The operating principle and some applications of the x-ray waveguides are revised. Significant improvements in waveguide fabrication with respect to the first ones yielded gain of about a factor six with respect to the incident intensity. The high degree of coherence and the divergence of the beam exiting the waveguide allowed phase contrast experiments with unprecedented spatial resolution of 140 nm. An innovative geometry for microdiffraction experiments is proposed which can open the way to very high spatial resolution measurements. The results of a very recent test experiment on a patterned silicon crystal are presented.

153. Phase contrast hard x-ray microscopy with submicron resolution

Author

S. Di Fonzo, S. Lagomarsino, C. Riekel, Alessia Cedola, Werner Jark, Peter Cloetens, and G. Soullié

Subjects
Materials science, Physics and Astronomy (miscellaneous), business.industry, media_common.quotation_subject, Resolution (electron density), Physics::Optics, X-ray optics, law.invention, Optics, law, Microscopy, Contrast (vision), Projection (set theory), business, Waveguide, Optical path length, Beam (structure), media_common
Abstract

In this letter we present a hard x-ray phase contrast microscope based on the divergent and coherent beam exiting an x-ray waveguide. It uses lensless geometrical projection to magnify spatial variations in optical path length more than 700 times. Images of a nylon fiber and a gold test pattern were obtained with a resolution of 0.14 μm in one direction. Exposure times as short as 0.1 s gave already visible contrast, opening the way to high resolution, real time studies.

154. DYNAMICAL NEUTRON DIFFRACTION BY CURVED CRYSTALS IN THE LAUE GEOMETRY

Author

S. Melone, P. Puliti, Gianni Albertini, F. Rustichelli, S. Lagomarsino, B. Klar, A. Boeuf, and S. Mazkedian

Subjects
Physics, Crystallography, Neutron diffraction, Physics::Optics, Atomic physics, Condensed Matter Physics, Electronic, Optical and Magnetic Materials
Abstract

The Taupin dynamical theory of X-ray diffraction by deformed crystals which was previously extended to the neutron diffraction by curved crystals in the Bragg geometry, is applied to calculate neutron diffraction patterns in the Laue geometry. The theoretical results are compared with experimental data on curved silicon crystals. The agreement is quite satisfactory. In the second part a simple model recently presented to describe neutron diffraction properties in the Bragg case is extended to the Laue case. The predictions of such a model are in satisfactory agreement with the rigorous theory and the experimental results. La theorie dynamique de la diffraction des rayons X par des cristaux deformes proposee par Taupin et qui a ete precedemment etendue a la diffraction neutronique par des cristaux courbes dans le cas de la geometrie de Bragg, a ete utilise pour calculer des profiles de diffraction dans les conditions de Laue. Les resultats theoriques sont alors compares a des donnees experimentales obtenues a ľaide de cristaux courbes de silicium. L'accord est satisfaisant. Dans la deuxieme partie, un modele simple qui a ete recemment presente pour decrire les proprietes de la diffraction dans le cas de Bragg, est etendu au cas de Laue. Les resultats obtenus a ľaide de ce modele sont en accord soit avec la theorie rigoureuse soit avec les donnees experimentales.

155. X-ray waveguide as a new tool for 100 nm spatially resolved x-ray strain analysis

Author

S. Di Fonzo, Alessia Cedola, Werner Jark, Cinzia Giannini, L. De Caro, and S. Lagomarsino

Subjects
Physics, Diffraction, Microscope, Acoustics and Ultrasonics, Field (physics), business.industry, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Reciprocal lattice, Optics, law, Waveguide (acoustics), Wafer, LOCOS, business, Image resolution
Abstract

In this work we present the results of a residual strain analysis performed on LOCOS processed films by means of x-ray reciprocal space mapping. Our findings demonstrate the possibility of achieving a sub-micrometre spatial resolution by using an x-ray waveguide as an innovative optical element in the measurement configuration. The entire set-up, working as a projection microscope, can be schematically described as waveguide, sample and CCD camera. In order to derive a quantitative description of the strain field induced in the Si wafer by the 1??m wide SiO2 stripes, we performed data analysis by dynamical simulation of the x-ray diffraction profiles based on an analytical treatment of the elastic field.

156. Thick pure Ge films for photodetectors

Author

R. Calarco, M. Fiordelisi, S Coffa, F. Scarinci, Gianlorenzo Masini, Lorenzo Colace, Gianni Barucca, S. Spinella, and S Lagomarsino

Subjects
Materials science, business.industry, Scanning electron microscope, General Engineering, Photodetector, chemistry.chemical_element, Heterojunction, Germanium, Epitaxy, Stress (mechanics), chemistry, Transmission electron microscopy, Stress relaxation, Optoelectronics, business
Abstract

Pure Ge/Si heterostructures were epitaxially grown on Si in order to obtain Si-integrated photodetectors in the near-infrared region. Samples grown with different procedures are compared. Graded buffer layers of Si1−xGex with x variable as a function of depth were grown in order to relax the stress. On top of these, pure Ge layers were grown. The mechanism of strain relaxation has been investigated by transmission electron microscopy and the surface morphology by scanning electron microscopy. The results on different samples are discussed and compared in terms of structural properties and photoresponse, in an attempt to correlate structural defects to photodetector efficiency.

157. Neutron diffraction from a smecticAmonodomain

Author

S. Lagomarsino, H. Hervet, F. Rustichelli, and F. Volino

Subjects
Materials science, Condensed matter physics, Neutron diffraction, Perpendicular, Phase (waves), General Medicine, Powder diffraction, Magnetic field
Abstract

It is shown by neutron diffraction that a relatively weak magnetic field (1.75 kG), is able to induce an order in a large terephthal-bis-(4n-butylaniline) (TBBA) sample in the smectic A phase. A monodomain is obtained with the planes perpendicular to the magnetic field. Rocking curves are performed whose full widths at half maximum give a value of a few degrees for the misorientations of the planes.

Published
1976
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158. Neutron diffraction study of the smectic C-smectic a phase transition of TBBA

Author

F. Volino, Gianni Albertini, S. Lagomarsino, and F. Rustichelli

Subjects
Physics, Phase transition, Materials science, Condensed matter physics, Neutron diffraction, General Physics and Astronomy, General Chemistry, Condensed Matter Physics, Condensed Matter::Soft Condensed Matter, chemistry.chemical_compound, Crystallography, Aniline, Tilt (optics), Reduced properties, chemistry, Materials Chemistry, Physical chemistry, Critical exponent
Abstract

The smectic C-smectic A transition of terephtal bis butyl aniline (TBBA) is investigated using neutron diffraction. The critical exponent relating the tilt angle to the reduced temperature is found to be β = 0.44 ± 0.04. Comparison with results obtained by other methods and with theoretical predictions is presented.

Published
1978
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159. Ru4+ site occupancy in yttrium iron garnet

Author

P. Paroli, S. Lagomarsino, A. Tucciarone, R. Krishnan, B. Antonini, and A. Paoletti

Subjects
Materials science, Valence (chemistry), Magnetic circular dichroism, Yttrium iron garnet, chemistry.chemical_element, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Ruthenium, Crystallography, chemistry.chemical_compound, Nuclear magnetic resonance, Octahedron, chemistry, Site occupancy
Abstract

Ru 4+ site occupancy in YIG has been investigated by means of optical absorption and magnetic circular dichroism (MCD). Octahedral Ru 4+ was observed and evidence found of a tetrahedral ruthenium center in a stable valence state. The presence of Zn enhances the octahedral site concentration of Ru 4+ .

Published
1980
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161. Analisi di vulnerabilità sistemica dei tessuti storici e scenari di danno: il caso Napoli

Author

GALDERISI, Adriana, S. LAGOMARSINO, P. UGOLINI, Galderisi, Adriana, AA.VV., and S. LAGOMARSINO, P. UGOLINI

Subjects
rischio sismico, vulnerabilità sistemica, centri storici
Abstract

Il lavoro delinea i riferimenti teorici e i principali elementi di metodo per l'analisi della vulnerabilità di un sistema urbano e, in particolare, di tessuti urbani storici, al rischio sismico. Particolare attenzione è data all'utilizzo di tecniche di scenario

Published
2005

162. Il terremoto del 23 novembre 1980 a Napoli: la ricostruzione del danno funzionale nella prima settimana post-evento

Author

GALDERISI, ADRIANA, CEUDECH, ANDREA, AA.VV., S. LAGOMARSINO, P. UGOLINI, Galderisi, Adriana, A., Ceudech, S. LAGOMARSINO, P. UGOLINI, and Ceudech, Andrea

Subjects
rischio sismico, scenari, danno funzionale
Abstract

L'analisi delle conseguenze di un terremoto che investe un sistema urbano è generalmente incentrata sui danni fisici ai manufatti e sulle perdite in termini di vite umane che si verificano nell'immediato post evento. In questo contributo si propone una ricostruzione dei danni sia fisici che funzionali verificatisi a Napoli nella prima settimana successiva al terremoto del 1980. L'obiettivo è quello di evidenziare il peso dei danni funzionali che un sistema urbano può subire in conseguenza di un evento sismico, intesi come danni conseguenti ad una perdita di efficienza del sistema stesso, in conseguenza di una domanda di prestazioni cui esso non riesce a far fronte.

Published
2005

163. Recent developments on techniques for differential phase imaging at the medical beamline of ELETTRA

Author

Nicola Sodini, Alberto Astolfo, A. Cedola, Fulvia Arfelli, Diego Dreossi, Daniele Pelliccia, Renata Longo, Stefano Lagomarsino, Ralph H Menk, Inna Bukreeva, P. Cardarelli, Luigi Rigon, Arfelli, Fulvia, D., Pelliccia, A., Cedola, Astolfo, Alberto, I., Bukreeva, P., Cardarelli, Dreossi, Diego, S., Lagomarsino, Longo, Renata, Rigon, Luigi, N., Sodini, and R. H., Menk

Subjects
Physics, Spectrum analyzer, business.industry, Grating interferometer, X-ray mammography and scinto- and MRI-mammography, Image reconstruction in medical imaging, X-ray radiography and digital radiography, Phase contrast imaging, Electrical engineering, Synchrotron radiation, Synchrotron light source, Differential phase, NO, Data processing methods, X-ray radiography and digital radiography (DR), Instrumentation, Mathematical Physics, Optics, Beamline, Astronomical interferometer, business, Differential phase contrast
Abstract

Over the last decade different phase contrast approaches have been exploited at the medical beamline SYRMEP of the synchrotron radiation facility Elettra in Trieste, Italy. In particular special focus has been drawn to analyzer based imaging and the associated imaging theory and processing. Analyzer based Imaging (ABI) and Diffraction Enhanced Imaging (DEI) techniques have been successfully applied in several biomedical applications. Recently it has been suggested to translate the acquired knowledge in this field towards a Thomson Backscattering Source (TBS), which is presently under development at the Frascati National Laboratories of INFN (Istituto Nazionale di Fisica Nucleare) in Rome, Italy. Such source is capable of producing intense and quasi-monochromatic hard X-ray beams. For the technical implementation of biomedical phase imaging at the TBS a grating interferometer for differential phase contrast imaging has been designed and successfully tested at SYRMEP beamline.

Published
2013

165. A Study of the Radiation Tolerance and Timing Properties of 3D Diamond Detectors.

Author

Anderlini L, Bellini M, Cindro V, Corsi C, Kanxheri K, Lagomarsino S, Lucarelli C, Morozzi A, Passaleva G, Passeri D, Sciortino S, Servoli L, and Veltri M

Abstract

We present a study on the radiation tolerance and timing properties of 3D diamond detectors fabricated by laser engineering on synthetic Chemical Vapor Deposited (CVD) plates. We evaluated the radiation hardness of the sensors using Charge Collection Efficiency (CCE) measurements after neutron fluences up to 1016 n/cm2 (1 MeV equivalent.) The radiation tolerance is significantly higher when moving from standard planar architecture to 3D architecture and increases with the increasing density of the columnar electrodes. Also, the maximum applicable bias voltage before electric breakdown increases significantly after high fluence irradiation, possibly due to the passivation of defects. The experimental analysis allowed us to predict the performance of the devices at higher fluence levels, well in the range of 1016 n/cm2. We summarize the recent results on the time resolution measurements of our test sensors after optimization of the laser fabrication process and outline future activity in developing pixel tracking systems for high luminosity particle physics experiments.

Published
2022
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166. Performance of 3D diamond detectors in small field dosimetry: The impact of pixel size.

Author

Kanxheri K, Talamonti C, Sciortino S, Lagomarsino S, Ionica M, Caprai M, Moscatelli F, and Servoli L

Subjects
Particle Accelerators, Photons therapeutic use, Radiation Dosimeters, Reproducibility of Results, Diamond, Radiometry methods
Abstract

Purpose: Small photon beams used in radiotherapy techniques have inherent characteristics of charge particle disequilibrium and high-dose gradient making accurate dosimetry for such fields very challenging. By means of a 3D manufacturing technique, it is possible to create arrays of pixels with a very small sensitive volume for radiotherapy dosimetry. We investigate the impact of 3D pixels size on absorbed dose sensitivity, linearity of response with dose rate, reproducibility and beam profile measurements., Methods: Diamond detectors with different pixel sizes have been produced in the 3DOSE experiment framework. To investigate the pixels size impact, they were tested using an Elekta Synergy LINAC. Dose rate dependence, absorbed dose sensitivity, reproducibility and beam profile measurement accuracy have been investigated and compared with PTW 60019 and IBA SFD reference dosimeters., Results: All of the 3D pixels had a linear and reproducible response to the dose rate. The sensitivity of a pixel decreases with its size, although even the smallest pixel has a high absorbed dose sensitivity (15 nC/Gy). The penumbra width measured with the smallest pixel size was consistent with the PTW microDiamond and differed by 0.2 mm from the IBA SFD diode., Conclusions: The study demonstrates that variation in pixel size do not affect the linearity of response with dose rate and the reproducibility of response. Due to the 3D geometry, the absorbed dose sensitivity of the detector remains high even for the smallest pixel, furthermore the pixel size was demonstrated to be of fundamental importance in the measurement of beam profiles., (Copyright © 2022 Associazione Italiana di Fisica Medica e Sanitaria. Published by Elsevier Ltd. All rights reserved.)

Published
2022
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167. Hospitals with and without neurosurgery: a comparative study evaluating the outcome of patients with traumatic brain injury.

Author

Giugni A, Gamberini L, Carrara G, Antiga L, Brissy O, Buldini V, Calamai I, Csomos A, De Luca A, Ferri E, Fleming JM, Gradisek P, Kaps R, Kyprianou T, Lagomarsino S, Lazar I, Martino C, Mikaszewska-Sokolewicz M, Montis A, Nardai G, Nattino G, Nattino G, Paci G, Portolani L, Xirouchaki N, Chieregato A, and Bertolini G

Subjects
Adult, Glasgow Coma Scale, Glasgow Outcome Scale, Hospitals, Humans, Intensive Care Units, Brain Injuries, Traumatic, Neurosurgery
Abstract

Background: We leveraged the data of the international CREACTIVE consortium to investigate whether the outcome of traumatic brain injury (TBI) patients admitted to intensive care units (ICU) in hospitals without on-site neurosurgical capabilities (no-NSH) would differ had the same patients been admitted to ICUs in hospitals with neurosurgical capabilities (NSH)., Methods: The CREACTIVE observational study enrolled more than 8000 patients from 83 ICUs. Adult TBI patients admitted to no-NSH ICUs within 48 h of trauma were propensity-score matched 1:3 with patients admitted to NSH ICUs. The primary outcome was the 6-month extended Glasgow Outcome Scale (GOS-E), while secondary outcomes were ICU and hospital mortality., Results: A total of 232 patients, less than 5% of the eligible cohort, were admitted to no-NSH ICUs. Each of them was matched to 3 NSH patients, leading to a study sample of 928 TBI patients where the no-NSH and NSH groups were well-balanced with respect to all of the variables included into the propensity score. Patients admitted to no-NSH ICUs experienced significantly higher ICU and in-hospital mortality. Compared to the matched NSH ICU admissions, their 6-month GOS-E scores showed a significantly higher prevalence of upper good recovery for cases with mild TBI and low expected mortality risk at admission, along with a progressively higher incidence of poor outcomes with increased TBI severity and mortality risk., Conclusions: In our study, centralization of TBI patients significantly impacted short- and long-term outcomes. For TBI patients admitted to no-NSH centers, our results suggest that the least critically ill can effectively be managed in centers without neurosurgical capabilities. Conversely, the most complex patients would benefit from being treated in high-volume, neuro-oriented ICUs., (© 2021. The Author(s).)

Published
2021
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168. LABEC, the INFN ion beam laboratory of nuclear techniques for environment and cultural heritage.

Author

Chiari M, Barone S, Bombini A, Calzolai G, Carraresi L, Castelli L, Czelusniak C, Fedi ME, Gelli N, Giambi F, Giardi F, Giuntini L, Lagomarsino S, Liccioli L, Lucarelli F, Manetti M, Massi M, Mazzinghi A, Nava S, Ottanelli P, Sciortino S, Ruberto C, Sodi L, Taccetti F, and Mandò PA

Abstract

The LABEC laboratory, the INFN ion beam laboratory of nuclear techniques for environment and cultural heritage, located in the Scientific and Technological Campus of the University of Florence in Sesto Fiorentino, started its operational activities in 2004, after INFN decided in 2001 to provide our applied nuclear physics group with a large laboratory dedicated to applications of accelerator-related analytical techniques, based on a new 3 MV Tandetron accelerator. The new accelerator greatly improved the performance of existing Ion Beam Analysis (IBA) applications (for which we were using since the 1980s an old single-ended Van de Graaff accelerator) and in addition allowed to start a novel activity of Accelerator Mass Spectrometry (AMS), in particular for 14 C dating. Switching between IBA and AMS operation became very easy and fast, which allowed us high flexibility in programming the activities, mainly focused on studies of cultural heritage and atmospheric aerosol composition, but including also applications to biology, geology, material science and forensics, ion implantation, tests of radiation damage to components, detector performance tests and low-energy nuclear physics. This paper describes the facilities presently available in the LABEC laboratory, their technical features and some success stories of recent applications., (© The Author(s) 2021.)

Published
2021
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169. A Study of the Radiation Tolerance of CVD Diamond to 70 MeV Protons, Fast Neutrons and 200 MeV Pions.

Author

Bäni L, Alexopoulos A, Artuso M, Bachmair F, Bartosik MR, Beck HC, Bellini V, Belyaev V, Bentele B, Bes A, Brom JM, Chiodini G, Chren D, Cindro V, Claus G, Collot J, Cumalat J, Curtoni S, Dabrowski AE, D'Alessandro R, Dauvergne D, De Boer W, Dorfer C, Dünser M, Eigen G, Eremin V, Forneris J, Gallin-Martel L, Gallin-Martel ML, Gan KK, Gastal M, Ghimouz A, Goffe M, Goldstein J, Golubev A, Gorišek A, Grigoriev E, Grosse-Knetter J, Grummer A, Hiti B, Hits D, Hoeferkamp M, Hosselet J, Hügging F, Hutson C, Janssen J, Kagan H, Kanxheri K, Kass R, Kis M, Kramberger G, Kuleshov S, Lacoste A, Lagomarsino S, Giudice AL, Paz IL, Lukosi E, Maazouzi C, Mandić I, Marcatili S, Marino A, Mathieu C, Menichelli M, Mikuž M, Morozzi A, Moscatelli F, Moss J, Mountain R, Oh A, Olivero P, Passeri D, Pernegger H, Perrino R, Picollo F, Pomorski M, Potenza R, Quadt A, Rarbi F, Re A, Reichmann M, Roe S, Rossetto O, Becerra DAS, Schmidt CJ, Schnetzer S, Sciortino S, Scorzoni A, Seidel S, Servoli L, Smith DS, Sopko B, Sopko V, Spagnolo S, Spanier S, Stenson K, Stone R, Stugu B, Sutera C, Traeger M, Trischuk W, Truccato M, Tuvè C, Velthuis J, Wagner S, Wallny R, Wang J, Wermes N, Wickramasinghe J, Yamouni M, Zalieckas J, Zavrtanik M, Hara K, Ikegami Y, Jinnouchi O, Kohriki T, Mitsui S, Nagai R, Terada S, and Unno Y

Abstract

We measured the radiation tolerance of commercially available diamonds grown by the Chemical Vapor Deposition process by measuring the charge created by a 120 GeV hadron beam in a 50 μm pitch strip detector fabricated on each diamond sample before and after irradiation. We irradiated one group of samples with 70 MeV protons, a second group of samples with fast reactor neutrons (defined as energy greater than 0.1 MeV), and a third group of samples with 200 MeV pions, in steps, to (8.8±0.9) × 10 15 protons/cm 2 , (1.43±0.14) × 10 16 neutrons/cm 2 , and (6.5±1.4) × 10 14 pions/cm 2 , respectively. By observing the charge induced due to the separation of electron-hole pairs created by the passage of the hadron beam through each sample, on an event-by-event basis, as a function of irradiation fluence, we conclude all datasets can be described by a first-order damage equation and independently calculate the damage constant for 70 MeV protons, fast reactor neutrons, and 200 MeV pions. We find the damage constant for diamond irradiated with 70 MeV protons to be 1.62±0.07(stat)±0.16(syst)× 10 -18 cm 2 /(p μm), the damage constant for diamond irradiated with fast reactor neutrons to be 2.65±0.13(stat)±0.18(syst)× 10 -18 cm 2 /(n μm), and the damage constant for diamond irradiated with 200 MeV pions to be 2.0±0.2(stat)±0.5(syst)× 10 -18 cm 2 /(π μm). The damage constants from this measurement were analyzed together with our previously published 24 GeV proton irradiation and 800 MeV proton irradiation damage constant data to derive the first comprehensive set of relative damage constants for Chemical Vapor Deposition diamond. We find 70 MeV protons are 2.60 ± 0.29 times more damaging than 24 GeV protons, fast reactor neutrons are 4.3 ± 0.4 times more damaging than 24 GeV protons, and 200 MeV pions are 3.2 ± 0.8 more damaging than 24 GeV protons. We also observe the measured data can be described by a universal damage curve for all proton, neutron, and pion irradiations we performed of Chemical Vapor Deposition diamond. Finally, we confirm the spatial uniformity of the collected charge increases with fluence for polycrystalline Chemical Vapor Deposition diamond, and this effect can also be described by a universal curve.

Published
2020
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170. Single cell versus large population analysis: cell variability in elemental intracellular concentration and distribution.

Author

Malucelli E, Procopio A, Fratini M, Gianoncelli A, Notargiacomo A, Merolle L, Sargenti A, Castiglioni S, Cappadone C, Farruggia G, Lombardo M, Lagomarsino S, Maier JA, and Iotti S

Subjects
Cell Count, Cell Line, Tumor, Human Umbilical Vein Endothelial Cells, Humans, Synchrotrons, X-Rays, Fluorescent Dyes chemistry, Magnesium analysis, Microscopy, Fluorescence methods, Optical Imaging methods, Single-Cell Analysis methods
Abstract

The quantification of elemental concentration in cells is usually performed by analytical assays on large populations missing peculiar but important rare cells. The present article aims at comparing the elemental quantification in single cells and cell population in three different cell types using a new approach for single cells elemental analysis performed at sub-micrometer scale combining X-ray fluorescence microscopy and atomic force microscopy. The attention is focused on the light element Mg, exploiting the opportunity to compare the single cell quantification to the cell population analysis carried out by a highly Mg-selective fluorescent chemosensor. The results show that the single cell analysis reveals the same Mg differences found in large population of the different cell strains studied. However, in one of the cell strains, single cell analysis reveals two cells with an exceptionally high intracellular Mg content compared with the other cells of the same strain. The single cell analysis allows mapping Mg and other light elements in whole cells at sub-micrometer scale. A detailed intensity correlation analysis on the two cells with the highest Mg content reveals that Mg subcellular localization correlates with oxygen in a different fashion with respect the other sister cells of the same strain. Graphical abstract Single cells or large population analysis this is the question!

Published
2018
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171. Periodically structured X-ray waveguides.

Author

Bukreeva I, Sorrentino A, Cedola A, Giovine E, Diaz A, Scarinci F, Jark W, Ognev L, and Lagomarsino S

Abstract

The properties of X-ray vacuum-gap waveguides (WGs) with additional periodic structure on one of the reflecting walls are studied. Theoretical considerations, numerical simulations and experimental results confirm that the periodic structure imposes additional conditions on efficient propagation of the electromagnetic field along the WGs. The transmission is maximum for guided modes that possess sufficient phase synchronism with the periodic structure (here called `super-resonances'). The field inside the WGs is essentially given at low incidence angle by the fundamental mode strongly coupled with the corresponding phased-matched mode. Both the simulated and the experimental diffraction patterns show in the far field that propagation takes place essentially only for low incidence angles, confirming the mode filtering properties of the structured X-ray waveguides.

Published
2013
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172. Complex refractive index variation in proton-damaged diamond.

Author

Lagomarsino S, Olivero P, Calusi S, Monticone DG, Giuntini L, Massi M, Sciortino S, Sytchkova A, Sordini A, and Vannoni M

Subjects
Computer Simulation, Light, Protons, Scattering, Radiation, Diamond chemistry, Diamond radiation effects, Models, Chemical, Refractometry methods
Abstract

An accurate control of the optical properties of single crystal diamond during microfabrication processes such as ion implantation plays a crucial role in the engineering of integrated photonic devices. In this work we present a systematic study of the variation of both real and imaginary parts of the refractive index of single crystal diamond, when damaged with 2 and 3 MeV protons at low-medium fluences (range: 10(15) - 10(17) cm(-2)). After implanting in 125 × 125 μm(2) areas with a scanning ion microbeam, the variation of optical pathlength of the implanted regions was measured with laser interferometric microscopy, while their optical transmission was studied using a spectrometric set-up with micrometric spatial resolution. On the basis of a model taking into account the strongly non-uniform damage profile in the bulk sample, the variation of the complex refractive index as a function of damage density was evaluated.

Published
2012
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173. Iterative retrieval of one-dimensional x ray wave field using a single intensity measurement.

Author

Pelliccia D, Paganin DM, Sorrentino A, Bukreeva I, Cedola A, and Lagomarsino S

Abstract

The problem of retrieving a complex function from the modulus of its Fourier transform has non-unique solutions in one dimension. Therefore iterative phase retrieval methods cannot in general be confidently applied to one-dimensional problems, due to the presence of ambiguities. We present a method for a posteriori reduction of the ambiguities based on the correlation analysis of the solution of a large number of runs of an iterative phase retrieval algorithm with different random starting phases. The method is applied to experimentally measured diffraction patterns from an x ray waveguide illuminated by hard x rays. We demonstrate the possibility of retrieving the complex wave field at the exit face of the waveguide and compare the result with theoretical prediction.

Published
2012
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174. Resonance modes filtering in structured x-ray waveguides.

Author

Bukreeva I, Cedola A, Sorrentino A, Pelliccia D, Asadchikov V, and Lagomarsino S

Abstract

We discuss the self-imaging effect that occurs in a multimode planar x-ray waveguide (WG) with a nanometer vacuum gap, where an additional longitudinal periodicity has been imposed by a periodical structure (a micron scale step-like grating) on the reflecting sidewalls. Taking into account the general Montgomery conditions and the particular case of Talbot effect, we show that this additional longitudinal periodicity, if suitably designed, can filter out the asymmetric and the high order resonance modes, providing a coherent beam at the exit, even if the WG is illuminated by an incoherent source., (© 2011 Optical Society of America)

Published
2011
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175. Evidence of light guiding in ion-implanted diamond.

Author

Lagomarsino S, Olivero P, Bosia F, Vannoni M, Calusi S, Giuntini L, and Massi M

Abstract

We demonstrate the feasibility of fabricating light-waveguiding microstructures in bulk single-crystal diamond by means of direct ion implantation with a scanning microbeam, resulting in the modulation of the refractive index of the ion-beam damaged crystal. Direct evidence of waveguiding through such buried microchannels is obtained with a phase-shift micro-interferometric method allowing the study of the multimodal structure of the propagating electromagnetic field. The possibility of defining optical and photonic structures by direct ion writing opens a range of new possibilities in the design of quantum-optical devices in bulk single-crystal diamond.

Published
2010
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176. Debye function analysis and 2D imaging of nanoscaled engineered bone.

Author

Guagliardi A, Cedola A, Giannini C, Ladisa M, Cervellino A, Sorrentino A, Lagomarsino S, Cancedda R, and Mastrogiacomo M

Subjects
Animals, Bone Marrow Cells cytology, Cells, Cultured, Ceramics chemistry, Implants, Experimental, Mice, Models, Molecular, Nanoparticles ultrastructure, Porosity, Sheep, Stromal Cells cytology, X-Ray Diffraction, Bone Substitutes chemistry, Durapatite chemistry, Nanoparticles chemistry, Osteogenesis, Tissue Engineering methods, Tissue Scaffolds chemistry
Abstract

The Debye Function Analysis of diffraction patterns from nanosized mineral crystals showing different average degrees of maturity was carried out on engineered bone samples. The analysis relied on a bivariate family of atomistic hydroxyapatite nanocrystal models and provided information about crystal structure, size and shape distributions of the mineral component of the newly formed bone. An average rod-like shape of nanocrystals was found in all samples, with average sizes well matching the collagen I gap region. The diffraction patterns investigated through the Debye Function Analysis were used as signal models to perform the Canonical Correlation Analysis of high resolution X-ray micro-diffraction patterns collected on porous and resorbable hydroxyapatite/silicon-stabilized tricalcium phosphate (Si-TCP) implants. The nosologic maps clearly showed a size gradient in the new formed bone that validates the mechanism (mimicking the bone remodelling in orthotopic bones) of a continuous deposition of bone by osteoblasts, an increasing mineralization of the newly deposited bone, a growth of the new crystals, at the same time that osteoclasts adhere to the scaffold surface and resorb the bioceramic. The comparison of samples at different implantation times proved that the selective resorption of Si-TCP component from the scaffold was already evident after two and almost complete after six months., (Copyright (c) 2010 Elsevier Ltd. All rights reserved.)

Published
2010
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177. X-ray phase contrast microscopy at 300 nm resolution with laboratory sources.

Author

Pelliccia D, Sorrentino A, Bukreeva I, Cedola A, Scarinci F, Ilie M, Gerardino AM, Fratini M, and Lagomarsino S

Abstract

We report the performance of an X-ray phase contrast microscope for laboratory sources with 300 nm spatial resolution. The microscope is based on a commercial X-ray microfocus source equipped with a planar X-ray waveguide able to produce a sub-micrometer x-ray beam in one dimension. Phase contrast images of representative samples are reported. The achieved contrast and resolution is discussed for different configurations. The proposed approach could represent a simple, inexpensive, solution for sub-micrometer resolution imaging with small laboratory setups.

Published
2010
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178. Analysis of tapered front-coupling X-ray waveguides.

Author

Bukreeva I, Pelliccia D, Cedola A, Scarinci F, Ilie M, Giannini C, De Caro L, and Lagomarsino S

Subjects
Computer Simulation, Computer-Aided Design, Equipment Design, Equipment Failure Analysis, Reproducibility of Results, Scattering, Radiation, Sensitivity and Specificity, X-Rays, Models, Theoretical, Optical Devices, Refractometry instrumentation, Synchrotrons instrumentation
Abstract

The coupling and propagation of electromagnetic waves through planar X-ray waveguides (WG) with vacuum gap and Si claddings are analyzed in detail, starting from the source and ending at the detector. The general case of linearly tapered WGs (i.e. with the entrance aperture different from the exit one) is considered. Different kinds of sources, i.e. synchrotron radiation and laboratory desk-top sources, have been considered, with the former providing a fully coherent incoming beam and the latter partially coherent beams. It is demonstrated that useful information about the parameters of the WG can be derived, comparing experimental results with computer simulation based on analytical solutions of the Helmholtz equation which take into account the amplitude and phase matching between the standing waves created in front of the WG, and the resonance modes propagating into the WG.

Published
2010
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179. In-line phase-contrast imaging for strong absorbing objects.

Author

De Caro L, Cedola A, Giannini C, Bukreeva I, and Lagomarsino S

Subjects
Absorption, Electric Impedance, Fourier Analysis, Models, Chemical, Normal Distribution, Optical Phenomena, Reproducibility of Results, Synchrotrons, Radiography methods
Abstract

Phase-contrast imaging is one of the most important emerging x-ray imaging techniques. In this work we analyse, from a theoretical point of view, the in-line phase-contrast image formation under general assumptions. The approach is based on wave-optical theory (Fresnel/Kirchoff diffraction integrals) and on the formalism of the mutual coherence function for the evolution of the coherence wavefield properties. Our theoretical model can be applied to phase-contrast imaging realized both by using highly coherent synchrotron radiation and micro-focus x-ray laboratory sources. Thus, the model is suitable for widespread applications, ranging from material science to medical imaging of human body parts. However, it cannot be applied to polychromatic sources, although the validity of the model does not require particularly demanding characteristics of monochromaticity. In addition, for moderate phase gradients, a useful analytical formula of the phase-contrast visibility is derived, based on the a priori knowledge of source size and distance, pixel detector size, defocus distance, material/tissue dielectric susceptibility and characteristic scales of transversal and longitudinal non-uniformities of the material/tissue dielectric susceptibility. Comparisons both with experimental results published by other authors and with simulations based on a Fourier optics approach have been reported, to confirm the validity of the proposed analytical formula

Published
2008
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180. Bulk and interface investigations of scaffolds and tissue-engineered bones by X-ray microtomography and X-ray microdiffraction.

Author

Cancedda R, Cedola A, Giuliani A, Komlev V, Lagomarsino S, Mastrogiacomo M, Peyrin F, and Rustichelli F

Subjects
Animals, Bone and Bones chemistry, Humans, Hydroxyapatites chemistry, Imaging, Three-Dimensional methods, Implants, Experimental, Synchrotrons, Tissue Engineering methods, Biocompatible Materials chemistry, Bone and Bones anatomy & histology, Tomography, X-Ray Computed methods, X-Ray Diffraction methods
Abstract

This review is presented of recent investigations concerning the structure of ceramic scaffolds and tissue-engineered bones and focused on two techniques based on X-ray radiation, namely microtomography (microCT) and microdiffraction. Bulk 3D information, with micro-resolution, is mainly obtained by microCT, whereas microdiffraction provides useful information on interfaces to the atomic scale, i.e. of the order of the nanometer. Since most of the reported results were obtained using synchrotron radiation, a brief description of the European Synchrotron Radiation Facility (ESRF) is presented, followed by a description of the two techniques. Then examples of microstructural investigations of scaffolds are reported together with studies on bone architecture. Finally, studies on ex vivo tissue-engineered bone and on bone microstructure in vivo are presented.

Published
2007
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181. Dispersion properties of x-ray waveguides.

Author

Pelliccia D, Bukreeva I, Cedola A, and Lagomarsino S

Abstract

We study the propagation of ultrashort pulses in x-ray waveguides (WGs) by addressing the problem of the temporal dispersion. Starting from basic equations, by means of numerical calculation we demonstrate that far from the absorption edges of the WGs the cladding's material dispersion is negligible. However, close to the absorption edge significant dispersion can take place. This behavior could in principle be exploited to manipulate incoming chirped beams. Moreover, using the two coherent beams produced by the WG in the second (and higher) order of resonance suggests the use of the WC as a dispersion-free beam splitter, which can facilitate x-ray pump-probe experiments in the femtosecond temporal range without the need for external sources.

Published
2006
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182. Improvements in CVD diamond properties for radiotherapy dosimetry.

Author

De Angelis C, Bucciolini M, Casati M, Løvik I, Bruzzi M, Lagomarsino S, Sciortino S, and Onori S

Subjects
Dose-Response Relationship, Radiation, Materials Testing, Radiation Dosage, Radiotherapy, Conformal instrumentation, Reproducibility of Results, Sensitivity and Specificity, Thermoluminescent Dosimetry instrumentation, Diamond chemistry, Diamond radiation effects, Radiotherapy, Conformal methods, Thermoluminescent Dosimetry methods
Abstract

The goal of this work was to compare the behaviour of a chemical vapour deposited (CVD) diamond sample, grown at the University of Florence using a local procedure, with that of a commercial CVD diamond. The comparison was performed exposing both systems to 25 MV photons and measuring the current response during irradiation. Properties of dosimetric interest such as stability of response, dose rate dependence and rise time were investigated. After a preliminary study, which evidenced better performances of the commercial device with respect to the local CVD diamond, the latter was irradiated with a high fluence of fast neutrons. As a result of the neutron treatment, the quality of the CVD home-made diamond has been improved to match with that of the commercial dosemeter.

Published
2006
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183. Submicrometre resolution phase-contrast radiography with the beam from an X-ray waveguide.

Author

Di Fonzo S, Jark W, Soullié G, Cedola A, Lagomarsino S, Cloetens P, and Riekel C

Abstract

Experimental data with unprecedented submicrometre resolution obtained in a phase-contrast radiography experiment in a magnifying configuration are presented. The term 'phase contrast' here indicates that the phase retardation of coherent light in matter was utilized as the contrast mechanism. The coherent and divergent beam exiting an X-ray waveguide was used in a lensless configuration to magnify spatial variations in optical path length up to several hundred times. The defocused image of a nylon fibre was measured with a resolution of 0.14 micro m at the object. Sufficient contrast was found for exposure times of 0.1 s, i.e. in the regime for real-time studies.

Published
1998
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184. Submicrometre beams from a hard X-ray waveguide at a third-generation synchrotron radiation source.

Author

Cedola A, Lagomarsino S, Di Fonzo S, Jark W, Riekel C, and Deschamps P

Abstract

The use of an X-ray waveguide for scattering experiments at an undulator of a third-generation synchrotron radiation source is discussed. The performance with a perfect crystal monochromator, multilayer monochromator and focusing mirror is explored. A maximum flux of 8 x 109 photons s(-1) at lambda = 0.083 nm was obtained for a 0.15 (V) x 600 (H) micron(2) beam at the exit of the waveguide with a multilayer monochromator. The combination of an Si (111) monochromator and ellipsoidal mirror resulted in a flux of approximately 10(9) photons s(-1) but with a horizontal compression of the beam to approximately 30 micron. The use of the waveguide in diffraction experiments is addressed.

Published
1998
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