Your search keyword '"Montereali RM"' showing total 45 results

1. Spin-coating deposition of thermoresponsive microgel thin films

Author

Nigro, V, Buratti, E, Limosani, F, Angelini, R, Dinelli, F, Franco, S, Nichelatti, E, Piccinini, M, Vincenti, Ma, Montereali, Rm, and Ruzicka, B

Subjects

Microgels, PNIPAM, Spin-coating, Thin films, Settore CHIM/03

Published

2023

2. Fabrication and Characterization of Organic Light Emitting Diodes Based on Alq3

Author

GAMBINO, Salvatore, BALDACCHINI G, GAGLIARDI S, LORETI S, MONTEREALI RM, PACE A, MICHELOTTI F, ONORATI F., GAMBINO S, BALDACCHINI G, GAGLIARDI S, LORETI S, MONTEREALI RM, PACE A, MICHELOTTI F, and ONORATI F

Published

2004

3. Impurity and stress distribution in diamond films investigated by laser excited Raman and luminescence spectroscopy

Author

Salvatori S, ROSSI, Maria Cristina, Galluzzi F, Montereali RM, SOMMA, Fabrizia, Salvatori, S, Rossi, Maria Cristina, Galluzzi, F, Somma, Fabrizia, and Montereali, Rm

Abstract

Impuritiy and stress distribution in diamond films have been studied by microRaman and microphotoluminescence. Raman and PL lateral profiles reveal the existence of a large anysotropic stress at the grain boundary resulting in frequency splitting and linewidth variations of the TO phonon. The detection of an additional peak at 1326 cm(-1) related to exagonal diamond phases and the high intensity reached by the 1.68 eV PL band at the coalescence region between two grains give evidence of preferential incorporation of defects at the grain boundary regions. Similarly, Raman and PL depth profiles indicate that the non-diamond intergrain tissue, abundant close to the substrate, induces compressive stress and represents a preferential site for Si diffusion.

Published

1997

4. In-line X-ray lensless imaging with lithium fluoride film detectors

Author

Angelica Cecilia, Tilo Baumbach, Rosa Maria Montereali, Heidari S Bateni, Patrik Vagovic, Francesca Bonfigli, Fabrizia Somma, Enrico Nichelatti, Daniele Pelliccia, Maria Aurora Vincenti, Bonfigli, F, Cecilia, A, Bateni, Sh, Nichelatti, E, Pelliccia, D, Somma, Fabrizia, Vagovic, P, Vincenti, Ma, Baumbach, T, Montereali, Rm, Montereali, R. M., Vincenti, M. A., Nichelatti, E., and Bonfigli, F.

Subjects

Materials science, Astrophysics::High Energy Astrophysical Phenomena, Colour centre, Particle detector, law.invention, chemistry.chemical_compound, Lithium fluoride, Colour centres, Optics, law, Wide dynamic range, Lensless imaging, Photoluminescence, Instrumentation, Radiation, business.industry, X-ray imaging, Detector, X-ray, Synchrotron, Beamline, chemistry, Physics::Accelerator Physics, business

Abstract

In this work, we present preliminary in-line X-ray lensless projection imaging results at a synchrotron facility by using novel solid-state detectors based on non-destructive readout of photoluminescent colour centres in lithium fluoride thin films. The peculiarities of LiF radiation detectors are high spatial resolution on a large field of view, wide dynamic range, versatility and simplicity of use. These properties offered the opportunity to test a broadband X-ray synchrotron source for lensless projection imaging experiments at the TopoTomo beamline of the ANKA synchrotron facility by using a white beam spectrum (3-40 keV). Edge-enhancement effects were observed for the first time on a test object; they are discussed and compared with simulations, on the basis of the colour centre photoluminescence linear response found in the investigated irradiation conditions. (c) 2013 Elsevier Ltd. All rights reserved.

Published

2013

5. LiF detectors-polycapillary lens for advanced X-ray imaging

Author

M. Magi, Francesca Bonfigli, Dariush Hampai, G. Della Ventura, Sultan B. Dabagov, Fabio Bellatreccia, R. M. Montereali, Hampai, D, Bonfigli, F, Dabagov, Sb, Montereali, Rm, DELLA VENTURA, Giancarlo, Bellatreccia, Fabio, Magi, M., Montereali, R. M., and Bonfigli, F.

Subjects

Nuclear and High Energy Physics, Optical microscopy, X-ray imaging, Color centers, Polycapillary optics, Lithium fluoride, Radiation, law.invention, chemistry.chemical_compound, Optics, law, Microscopy, Instrumentation, Image resolution, Physics, Dynamic range, business.industry, Detector, Characterization (materials science), Lens (optics), chemistry, Color center, business, Polycapillary optic

Abstract

A great effort in X-ray imaging studies has been dedicated to the design of novel optics-detector solutions that aims in creating a compact laboratory X-ray microscopy apparatus. Based on our experience in the use of both capillary/polycapillary optical systems and LiF imaging detectors we have recently tested a new combination of these techniques. The potential of the optics both to concentrate and to shape X-ray radiation enforced by the high performances in terms of spatial resolution/dynamic range of LiF imaging detectors allows us to use very simple imaging techniques, like the contact one, particularly suitable for compact imaging systems. In this paper we present first results about high spatial resolution images of transmitted X-rays through a polycapillary semi-lens. Submicron X-ray imaging of thick geological samples was also presented and discussed. These results demonstrate the potentialities of these novel X-ray imaging system for characterization of X-rays optics and for applications in material, life and heart sciences. © 2012 Elsevier B.V.

Published

2013

6. Color center luminescence decay times in optical microcavities based on LiF films

Author

Hervé Rigneault, Massimo Piccinini, Rm Montereali, Bernard Jacquier, P. Moretti, Francesca Bonfigli, Fabrizia Somma, Bonfigli, F, Jacquier, B, Montereali, Rm, Moretti, P, Piccinini, M, Rigneault, H, and Somma, Fabrizia

Subjects

Photoluminescence, Condensed Matter::Other, Chemistry, business.industry, Biophysics, Physics::Optics, General Chemistry, Condensed Matter Physics, Biochemistry, Optical microcavity, Atomic and Molecular Physics, and Optics, law.invention, Condensed Matter::Materials Science, Planar, Optics, law, Spontaneous emission, Angular resolution, Emission spectrum, Thin film, Luminescence, business

Abstract

Controlling and modifying spontaneous emission in optical microcavities is of great interest for both their basic properties and for their potential applications in emitting solid-state devices. Spatial and temporal spontaneous emission modifications of F-2 color centers in LiF films placed inside planar optical microcavities are reported. Angularly resolved photo luminescence measurements show a narrowing and an enhancement of the emission spectrum along the cavity axis; time resolved luminescence measurements in different geometrical configurations show a shortening of luminescence decay time along the microcavity axis. (C) 2001 Elsevier Science B.V. All rights reserved.

Published

2001

7. Control of F2 color centers spontaneous emission in LiF thin films inside optical microcavities

Author

Fabrizia Somma, Paul Moretti, Francesca Menchini, Ali Belarouci, Hervé Rigneault, B Jacquier, Rm Montereali, Michel Cathelinaud, Belarouci, A, Menchini, F, Rigneault, H, Jacquier, B, Montereali, Rm, Somma, Fabrizia, Moretti, P, and Cathelinaud, M.

Subjects

Photoluminescence, Chemistry, business.industry, Organic Chemistry, Physics::Optics, Lithium fluoride, Optical microcavity, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, Inorganic Chemistry, Condensed Matter::Materials Science, chemistry.chemical_compound, Resonator, Optics, law, Spontaneous emission, Emission spectrum, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, Thin film, business, Astrophysics::Galaxy Astrophysics, Spectroscopy, Electron-beam lithography

Abstract

An experimental investigation on spontaneous emission properties of Fabry-Perot microcavities consisting of quarter-wavelength ZnS/Cryolite Bragg mirrors and a lithium fluoride (LiF) thin film colored with low-energy electron beam lithography is reported for the first time. Angular-resolved photoluminescence measurements show the modifications of F-2 color centers visible spontaneous emission. The resonator induces a narrowing of the emission spectrum and a related increase in the directionality and intensity of the emission along the cavity axis. (C) 2001 Elsevier Science B.V. All rights reserved.

Published

2001

8. NaF films: Growth properties and electron beam induced defects

Author

Stefano Martelli, M. H. Do Pinho Mauricio, L. C. Scavarda Do Carmo, Rosa Maria Montereali, R. A. Nunes, Fabrizia Somma, Marco Cremona, A. P. Sotero, Cremona, M, Sotero, Ap, Nunes, Ra, Mauricio, Mhd, Docarmo, Lc, Montereali, Rm, Martelli, S, and Somma, Fabrizia

Subjects

Nuclear and High Energy Physics, Radiation, Absorption spectroscopy, Scanning electron microscope, Photoemission spectroscopy, Chemistry, Analytical chemistry, Condensed Matter Physics, Evaporation (deposition), Electron beam physical vapor deposition, Crystallography, General Materials Science, Crystallite, Texture (crystalline), Thin film

Abstract

Polycrystalline NaF films were grown by e-beam assisted physical evaporation on amorphous silica substrates kept, during film growth, at constant temperatures ranging from 40 degrees C to 400 degrees C. The structural characterization of the films was performed by X-ray diffraction and by scanning electron microscopy. Irradiating the films with a 15 keV electron beam induced the formation of F and F-aggregate colour centres stable at room temperature. Absorption and photoemission measurements were performed and indicated a dependence of coloration on the deposition conditions.

Published

1995

9. Photoluminescence of LiF : NaF films at room temperature

Author

A.P. da Silva Sotero, Marco Cremona, Fabrizia Somma, R. A. Nunes, L. C. Scavarda Do Carmo, Marco Rossi, Rosa Maria Montereali, Nunes, Ra, Sotero, Apd, Docarmo, Lc, Cremona, M, Montereali, Rm, Roosi, M, and Somma, Fabrizia

Subjects

Photoluminescence, Chemistry, business.industry, Biophysics, Physics::Optics, New materials, General Chemistry, Dielectric, Electron, Condensed Matter Physics, Biochemistry, Atomic and Molecular Physics, and Optics, Spectral line, Condensed Matter::Materials Science, Low energy, Optoelectronics, business, Nuclear chemistry

Abstract

In this paper we present the results of the photoluminescence spectra of multilayer LiF : NaF films colored by low energy (3 keV) electron beams. We show that dielectric multilayered films can be used in the design of new materials with optical properties that cannot be matched by bulk materials.

Published

1994

10. Crystalline properties and colour centres in alkali halide thin films

Author

G. Petrocco, Fabrizia Somma, L. C. Scavarda Do Carmo, A. Scacco, M. Ferri, Rosa Maria Montereali, Stefano Martelli, Montereali, R. M., Ferri, M, Scacco, A, Somma, Fabrizia, Montereali, Rm, Martelli, S, Petrocco, G, and Docarmo, Lcs

Subjects

Nuclear and High Energy Physics, Radiation, genetic structures, thin film, Chemistry, business.industry, Scanning electron microscope, Analytical chemistry, Halide, Condensed Matter Physics, colour centre, Evaporation (deposition), Amorphous solid, Alkali halide, Optics, thin films, colour centres, X-ray crystallography, General Materials Science, Irradiation, Thin film, Exponential decay, business

Abstract

Thin films of KCl, KBr, RbCl have been obtained by thermal evaporation on amorphous substrates with different deposition parameters. The crystalline structure and orientation have been determined, and the films resulted to be policrystals with high uniformity of orientation. Production of colour centres, achieved by irradiation with low-energy electrons, leads to F center concentrations barely observed in large crystals. The colouration kinetics is similar to that in the bulk, and shows after a maximum an exponential decay at high doses because of centre aggregation coupled to thermal effects. The films exhibit a bleaching process of the colour centres at room temperature, whose kinetics depends on the irradiation damage. © 1992, Taylor & Francis Group, LLC. All rights reserved.

Published

1992

11. Crystalline characterization and colouration of KMgF3 films

Author

L. C. Scavarda Do Carmo, Fabrizia Somma, Rosa Maria Montereali, Giuseppe Baldacchini, A. Scacco, Stefano Martelli, Baldacchini, G, Montereali, Rm, Docarmo, Lc, Martelli, S, Scacco, A, and Somma, Fabrizia

Subjects

Materials science, Chemical engineering, Materials Chemistry, Metals and Alloys, Surfaces and Interfaces, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Characterization (materials science)

Published

1990

12. Color-Center Waveguides in Low-Energy Electron-Bombarded Lithium Fluoride

Author

Rosa Maria Montereali, Fabrizia Somma, Alessio Rocchetti, Gaetano Assanto, Enrico Nichelatti, A., Rocchetti, Assanto, Gaetano, R. M., Montereali, E., Nichelatti, Somma, Fabrizia, Rocchetti, A, Montereali, Rm, and Nichelatti, E

Subjects

Materials science, Physics and Astronomy (miscellaneous), business.industry, Lithium fluoride, Physics::Optics, Photoresist, Grating, Waveguide (optics), Crystal, chemistry.chemical_compound, Optics, chemistry, Optoelectronics, business, Spectroscopy, Diffraction grating, Refractive index

Abstract

We employ a differential version of m-line spectroscopy through grating coupling in order to measure the refractive index of low-energy electron irradiated lithium fluoride crystal channel waveguides for broadband emission. Using photoresist films and a holographic setup for grating fabrication, we perform an accurate characterization of bidimensional structures and a direct quantitative comparison between treated and blank materials.

Published

2006

13. Morphological, electrical and optical properties of organic light-emitting diodes with a LiF/Al cathode and an Al-hydroxyquinoline/diamine junction

Author

Giuseppe Baldacchini, Rosa Maria Montereali, Angelo Pace, Francesco Michelotti, Salvatore Gambino, Stefano Loreti, S. Gagliardi, MONTEREALI RM, GAMBINO S, LORETI S, GAGLIARDI S, PACE A, BALDACCHINI G, and MICHELOTTI F

Subjects

Chemistry, Mechanical Engineering, Metals and Alloys, Analytical chemistry, alq3, electroluminescence, organic diodes, thin films, Lithium fluoride, Biasing, Electroluminescence, Condensed Matter Physics, Cathode, Electronic, Optical and Magnetic Materials, law.invention, chemistry.chemical_compound, Mechanics of Materials, law, Materials Chemistry, OLED, Electric current, Luminous efficacy, Diode

Abstract

We report the results of the morphological, electrical and optical characterisation of double-layer Alq3-based organic emitting diodes with a lithium fluoride (LiF)/Al cathode. A detailed electron microscopy investigation of their cross-section shows the presence of LiF isolated grains underneath the Al film. Due to the introduction of the LiF layer, luminance was larger than 30,000 cd/m2 at a bias voltage VB=25 V with a maximum external luminous efficiency as large as 46 lm/W at VB=20 V. Performing on/off VB cycles at a very low frequency, each time a recovery of the initial electric and luminous performance was observed. The non-exponential decay of both electric current and luminance during each on-cycle has been interpreted as the signature of dispersive transport controlled by multiple trapping on localised states in an amorphous system.

Published

2004

14. Optical investigation of metallic colloids in ion-irradiated lithium fluoride (LiF) crystals

Author

T. Marolo, Bernard Jacquier, Valentina Mussi, P. Moretti, Enrico Nichelatti, A. Cricenti, F. Somma, Rosa Maria Montereali, Mussi, V, Cricenti, A, Jacquier, B, Marolo, T, Montereali, Rm, Moretti, P, Nichelatti, E, and Somma, Fabrizia

Subjects

Nuclear and High Energy Physics, Range (particle radiation), Radiation, Absorption spectroscopy, Analytical chemistry, chemistry.chemical_element, Lithium fluoride, Condensed Matter Physics, Crystallographic defect, Ion, chemistry.chemical_compound, Ion implantation, chemistry, General Materials Science, Lithium, Irradiation, Nuclear chemistry

Abstract

The measured room-temperature absorption spectra of LiF crystals implanted with 1.5 MeV He+ ions at different ion doses are presented. The application of a theoretical model allowed us to give an estimation of the band intensities associated with various kinds of electronic defects and to study their dependence on the ion dose. The model also considers the contribution due to narrometric lithium colloids, whose formation starts in the dose range at which the production of colour centres saturates.

Published

2003

15. Defect generation in low-energy ion-assisted thermal deposited lithium fluoride films

Author

Fabrizia Somma, Valentina Mussi, L. Pilloni, Enrico Nichelatti, A. Cricenti, S. Scaglione, Rosa Maria Montereali, Cricenti, A, Montereali, Rm, Mussi, V, Nichelatti, E, Pilloni, L, Scaglione, S, and Somma, Fabrizia

Subjects

Scanning electron microscope, business.industry, Analytical chemistry, Lithium fluoride, chemistry.chemical_element, Nanoparticle, Condensed Matter Physics, Microstructure, Electronic, Optical and Magnetic Materials, Ion, chemistry.chemical_compound, Condensed Matter::Materials Science, Optics, chemistry, Materials Chemistry, Ceramics and Composites, Deposition (phase transition), Lithium, Thin film, business

Abstract

We present first results concerning stable formation of primary electronic defects and lithium nanometer sized clusters in LiF thin films grown by ion-assisted thermal deposition. The optical and morphological properties of the as grown LiF films, dependent on the deposition conditions, such as ion-beam energy and ion species (Xe, Ar), are reported. The experimental results show a larger efficiency of low-energy Xe ions in inducing the formation of lithium nano-clusters. To analyse the role of the deposition conditions, a preliminary interpretation of the lithium nano-cluster formation mechanism based on the spherical and/or cylindrical spike thermal model is given. (C) 2003 Elsevier B.V. All rights reserved.

Published

2003

16. Optical microcavities based on F2 color centers in lithium fluoride films: modification of spontaneous emission

Author

P. Moretti, Francesca Bonfigli, Enrico Nichelatti, Bernard Jacquier, R. M. Montereali, Hervé Rigneault, F. Somma, Massimo Piccinini, Ferrand, Patrick, Alexis Carabelas, Giuseppe Baldacchini, Paolo Di Lazzaro, Dimitrios Zevgolis, Institut FRESNEL (FRESNEL), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS), Alexis Carabelas, Giuseppe Baldacchini, Paolo Di Lazzaro, Dimitrios Zevgolis, Bonfigli, F, Jacquier, B, Montereali, Rm, Moretti, P, Nichelatti, E, Piccinini, A, Rigneault, H, Somma, Fabrizia, Centre National de la Recherche Scientifique (CNRS)-École Centrale de Marseille (ECM)-Aix Marseille Université (AMU), A.Carabelas, G.Baldacchini, P.Di Lazzaro, D.Zevgolis, F., Bonfigli, B., Jacquier, R. M., Montereali, P., Moretti, E., Nichelatti, M., Piccinini, and H., Rigneault

Subjects

[PHYS.PHYS.PHYS-OPTICS] Physics [physics]/Physics [physics]/Optics [physics.optics], [PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics], Materials science, business.industry, Physics::Optics, chemistry.chemical_element, Lithium fluoride, Electron, Dielectric, Condensed Matter::Materials Science, chemistry.chemical_compound, chemistry, Optoelectronics, Spontaneous emission, Lithium, Luminescence, business, Laser-induced fluorescence, Refractive index

Abstract

Lithium fluoride (LiF) films irradiated by low energy electrons were employed as active spacers in all-solid, dielectric optical microcavities emitting in the visible spectral range. We present the results of optical characterization of the spontaneous emission from F 2 color centers embedded in a LiF layer confined inside a planar microcavity. These structures seem promising for the realization of novel kinds of solid-state miniaturized emitting devices.

Published

2003

17. Broad band emitting color centers in lithium fluoride films for optical microcavities

Author

Hervé Rigneault, Fabrizia Somma, Michel Cathelinaud, B Jacquier, Paul Moretti, Ali Belarouci, Rm Montereali, Francesca Menchini, Somma, Fabrizia, Belarouci, A, Cathelinaud, M, Jacquier, B, Menchini, F, Montereali, Rm, Moretti, P, and Rigneault, H.

Subjects

Nuclear and High Energy Physics, Radiation, Photoluminescence, business.industry, Lithium fluoride, Physics::Optics, Electron, Condensed Matter Physics, Optical microcavity, Spectral line, law.invention, Wavelength, chemistry.chemical_compound, Optics, chemistry, law, Excited state, Optoelectronics, General Materials Science, business, Luminescence

Abstract

We have fabricated for the first time different optical microcavities made of two Bragg mirrors sandwiching a lithium fluoride film treated by low-energy electrons to create color centers. Among the so-formed defects, we focused our attention on the F-2 centers, which can be optically excited around 450 nm and give rise to an efficient broad-band luminescence centered at similar to 670 nm in the red spectral range at RT. We have modified the design of the upper reflector of the microcavities in order to shift their resonant wavelength from lambda(res)approximate to665 nm to lambda(res)approximate to640 nm. We get evidence of the different optical behaviors from measurements of the photoluminescence spectra of the radiation emitted perpendicularly to the multilayer surface.

Published

2001

18. Spontaneous emission properties of color centers based optical microcavities

Author

B Jacquier, Francesca Menchini, Paul Moretti, Rm Montereali, Fabrizia Somma, Hervé Rigneault, Ali Belarouci, Belarouci, A, Menchini, F, Rigneault, H, Jacquier, B, Montereali, Rm, Somma, Fabrizia, and Moretti, P.

Subjects

Materials science, Photoluminescence, Photon, business.industry, Lithium fluoride, Physics::Optics, Electron, Optical microcavity, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, chemistry.chemical_compound, Optics, chemistry, law, Radiative transfer, Optoelectronics, Spontaneous emission, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, business, Luminescence

Abstract

Optical microcavities based on lithium fluoride films treated by low-energy electrons to create visible-emitting F-2 color centers have been fabricated, and their radiative properties characterized for the first time. By tuning the photon cavity mode to the maximum of the luminescence band for the F-2 centers (similar to 670 nm), spectral narrowing, peak-intensity enhancement of the emission band as well as a highly directional radiation pattern have been observed comparatively for experiments performed on a half-cavity and a full microcavity, Spontaneous emission decay times have been measured, and a shortening of lifetime by the cavity has been observed. (C) 2001 Elsevier Science B.V. All rights reserved.

Published

2001

19. Diamond photoluminescence spectra: dependence on excitation energy and microstructure

Author

Fabrizia Somma, Rosa Maria Montereali, F. Galluzzi, Mariacristina Rossi, Stefano Salvatori, Rossi, Maria Cristina, Salvatori, S, Galluzzi, F, Somma, Fabrizia, Montereali, Rm, S., Salvatori, F., Galluzzi, and R. M., Montereali

Subjects

Materials science, Photoluminescence, Silicon, Mechanical Engineering, chemistry.chemical_element, Diamond, General Chemistry, engineering.material, Electronic, Optical and Magnetic Materials, Condensed Matter::Materials Science, chemistry, Excited state, Materials Chemistry, engineering, Photoluminescence excitation, Emission spectrum, Electrical and Electronic Engineering, Atomic physics, Luminescence, Excitation

Abstract

Photoluminescence data are presented for diamond films grown by different techniques (hot-filament CVD, microwave PECVD, DC arc-jet) and excited in the range 450-650nm by different laser sources. In large-grain textured samples, sharp vibronic structures, related to nitrogen and silicon impurity centers, are clearly observed, whereas in small-grain, randomly oriented films spectra are dominated by broad luminescence bands, whose maxima move with excitation energy. In the former case a careful deconvolution of emission spectra allows us to obtain vibronic parameters of the centers and their fine structure details, while excitation spectra give the energy location of higher electronic excited states. On the other hand, the line-shape and the excitation-dependent shift of broad luminescence bands are related to a continuous distribution of gap states, able to trap photogenerated electron-hole pairs. (C) 1998 Elsevier Science S.A.

Published

1998

20. Structural and optical properties of alkali halide multilayer LiF:NaF films

Author

Marco Cremona, Ra Nunes, Rm Montereali, Fabrizia Somma, Maurizio Passacantando, Luca Lozzi, Mhp Mauricio, Sandro Santucci, Somma, Fabrizia, Montereali, Rm, Santucci, S, Lozzi, L, Passacantando, M, Cremona, M, Mauricio, Mhp, and Nunes, Ra

Subjects

Argon, Photoluminescence, Materials science, Photoemission spectroscopy, Scanning electron microscope, Analytical chemistry, chemistry.chemical_element, Halide, Physics::Optics, Surfaces and Interfaces, Condensed Matter Physics, Evaporation (deposition), Surfaces, Coatings and Films, Characterization (materials science), Condensed Matter::Materials Science, chemistry, X-ray crystallography

Abstract

Alkali halide multilayer films containing a large concentration of color centers created by low energy (3-12 keV) electron beams in a thin dielectric layer of controlled depth, represent a good and simple way to obtain new optically active materials. This work presents a study of multilayer LiF:NaF films, grown by physical evaporation. The structural and morphological characterization of the samples have been performed using x-ray diffraction, scanning electron microscopy, atomic force microscopy, and x-ray photoemission spectroscopy depth profile techniques. The visible photoluminescence of optically active defects was measured by excitation with an Argon laser. Controlling the deposition and coloration parameters it is possible to obtain new photoluminescent materials with predesigned optical features. (C) 1997 American Vacuum Society.

Published

1997

21. Visible and infrared photoluminescence of low-energy electron irradiated LiF:KCl thin films

Author

A. Raco, Maurizio Passacantando, Fabrizia Somma, A. Grilli, Marco Cremona, Rm Montereali, Cremona, M, Grilli, A, Montereali, Rm, Passacantando, M, Raco, A, and Somma, Fabrizia

Subjects

Materials science, Photoluminescence, genetic structures, Infrared, business.industry, Bilayer, Biophysics, Physics::Optics, General Chemistry, Condensed Matter Physics, Laser, Biochemistry, Atomic and Molecular Physics, and Optics, law.invention, law, Electron beam processing, Sapphire, Optoelectronics, Irradiation, Thin film, business

Abstract

In this work we report the visible and infrared emissions of the color centers created in bilayer LiF:KCl thin films, obtained by pumping them with appropriate Ar + and Ti:Sapphire laser lines. The large concentration of color centers induced by low-energy electron irradiation in a thin dielectric layer of controlled depth allows to investigate the spectroscopic properties of point defects which cannot be found in mixed crystals.

Published

1997

22. Structural and optical properties of low energy electrons irradiated KCl:LiF multilayer films

Author

Sandro Santucci, Rm Montereali, Marco Cremona, Fabrizia Somma, P. Picozzi, Maurizio Passacantando, Somma, Fabrizia, Cremona, M, Montereali, Rm, Passacantando, M, Picozzi, P, and Santucci, S.

Subjects

Nuclear and High Energy Physics, Materials science, Near-infrared spectroscopy, Analytical chemistry, Electron, Laser, Crystallographic defect, law.invention, Amorphous solid, law, Electron beam processing, Irradiation, Atomic physics, Luminescence, Instrumentation

Abstract

The optical behaviour of point defects created by low energy electron beams is studied in multilayer KCl:LiF films, grown by thermal evaporation onto amorphous substrates at constant temperatures ranging from 30 to 350°C. The surface morphology of the samples was observed by the atomic force microscopy (AFM) technique. Large concentration of F and F-aggregate centres has been produced by 3–7 keV electron irradiation both in KCl and LiF layers which constitute the film. By pumping our films with appropriate Ar + laser lines, we measured, for the first time, the luminescence in the near infrared region due to F 2 and F 3 centres in KCl and the typical emission of F 2 and F 3 + centres in LiF in the visible region.

Published

1996

23. F-AGGREGATE CENTERS IN KCL FILMS

Author

Rosa Maria Montereali, A. Scacco, Stefano Martelli, G. Petrocco, L. C. Scavarda Do Carmo, A. Ercoli, L. Scopa, R. A. Nunes, Fabrizia Somma, Marco Cremona, Ercoli, A, Scacco, A, Somma, Fabrizia, Cremona, M, Montereali, Rm, Martelli, S, Petrocco, G, Scopa, L, Nunes, Ra, and Docarmo, Lcs

Subjects

Nuclear and High Energy Physics, Radiation, Photoluminescence, genetic structures, Absorption spectroscopy, business.industry, Chemistry, Analytical chemistry, Condensed Matter Physics, Amorphous solid, Optics, Electron beam processing, General Materials Science, Thin film, business, Luminescence, Absorption (electromagnetic radiation), Deposition (law)

Abstract

The optical behaviour of colour centres is studied in thin films of KCl obtained by thermal evaporation onto amorphous substrates. Deposition conditions are optimized in order to minimize chemical and thermal effects on films. Concentration of colour centres even higher than in bulk crystals can be induced by low energy electron irradiation. Thermal bleaching of F centres is observed at room temperature and its kinetics, deduced from absorption measurements, consists of two exponential processes with very different time constants. Luminescence is obtained for the first time from aggregate colour centres in KCl films, and typical emissions of F2, F3, F4 defects (but not of F centres because of concentration quenching) are revealed.

Published

1994

24. High-resolution X-ray imaging by polycapillary optics and lithium fluoride detectors combination

Author

M. Magi, Sultan B. Dabagov, Fabio Bellatreccia, Francesca Bonfigli, Rosa Maria Montereali, Dariush Hampai, G. Della Ventura, Hampai, D, Dabagov, Sb, DELLA VENTURA, Giancarlo, Bellatreccia, Fabio, Magi, M, Bonfigli, F, and Montereali, Rm

Subjects

Physics, Dynamic range, business.industry, X-ray microscope, Detector, General Physics and Astronomy, Lithium fluoride, X-ray optics, Detectors, X-ray beam, Particle detector, Characterization (materials science), X-ray source, Mirror, chemistry.chemical_compound, Gamma-ray source, Optics, chemistry, Microscopy, Grating, Photonics, X-ray optic, business

Abstract

""Abstract – Novel results on high-resolution X-ray imaging by a table-top laboratory system based on lithium fluoride (LiF) imaging radiation detectors and a X-ray tube combined with polycapillary optics are reported for the first time. In this paper, imaging experiments of reference objects, as well as thick geological samples, show some of the potentialities of this approach for the development of a compact laboratory X-ray microscopy apparatus. The high spatial resolution and dynamic range of versatile LiF imaging detectors, based on optical reading of photoluminescence from X-ray–induced color centers in LiF crystals and films, allow us to use very simple contact imaging techniques. Promising applications can be foreseen in the fields of bio-medical imaging diagnostics, characterization of X-ray sources and optical elements, material science and photonics.""

Published

2011

25. ZERO-PHONON LINES IN THE R2 ABSORPTION OF F3 CENTERS IN KF

Author

R Coluzzi, O. Pilla, Fabrizia Somma, Rm Montereali, A. Scacco, G Baldacchini, E Ciaramella, Coluzzi, R, Scacco, A, Somma, Fabrizia, Baldacchini, G, Ciaramella, E, Montereali, Rm, and Pilla, O.

Subjects

chemistry.chemical_classification, F-Center, Condensed matter physics, Sideband, Chemistry, business.industry, Phonon, General Chemistry, Atmospheric temperature range, Condensed Matter Physics, Transverse plane, symbols.namesake, Optics, Lattice (order), Materials Chemistry, symbols, business, Inorganic compound, Debye model

Abstract

The zero-phonon line and the structured multiphonon sideband of the R 2 absorption in KF have been investigated in the temperature range 2–100 K. The values of the Huang-Rhys factor (∼2) and of the Debye temperature (241 K) were determined for R 2 transition. Transverse acoustical phonons propagating along 〈100〉 directions are most likely involved in the coupling of the F 3 centres with the KF host lattice.

Published

1991

26. LUMINESCENCE OF AGGREGATE COLOR-CENTERS IN KF

Author

A. Scacco, Marco Cremona, Rb Pode, Fabrizia Somma, Giuseppe Baldacchini, Marco Rossi, Rm Montereali, R Coluzzi, Coluzzi, R, Rossi, M, Scacco, A, Somma, Fabrizia, Baldacchini, G, Cremona, M, Montereali, Rm, and Pode, Rb

Subjects

Aggregate (composite), Chemistry, Doping, Near-infrared spectroscopy, Biophysics, General Chemistry, Irradiation, Condensed Matter Physics, Photochemistry, Luminescence, Biochemistry, Atomic and Molecular Physics, and Optics, Excitation

Abstract

Complex F-aggregate centers were studied in pure and Li 1 -doped KF, by means of optical excitation. Three new emission bands in the near infrared region were revealed. Among them, the luminescence at 1040 nm was identified as the emission of F 3 defects because of its excitation, its peak position and its enhancement under irradiation at room temperature with F light. The luminescences at 950 and at 1250 nm were too weak and could not be unambiguously identified. However, they are probably due to complex F-aggregate centers, like F 4 defects.

Published

1991

27. Fluorescence imaging of submicrometric lattices of colour centres in LiF by an apertureless scanning near-field optical microscope

Author

Stephan Guy, Bernard Jacquier, Jean-Louis Bijeon, S. Benrezzak, Massimo Piccinini, Pierre-Michel Adam, F. Somma, Hervé Rigneault, P. Moretti, Francesca Menchini, Pascal Royer, Rosa Maria Montereali, Christian Seassal, Adam, Pm, Benrezzak, S, Bijeon, Jl, Royer, P, Guy, S, Jacquier, B, Moretti, P, Montereali, Rm, Piccinini, M, Menchini, F, Somma, Fabrizia, Seassal, C, Rigneault, H., Laboratoire de Nanotechnologie et d'Instrumentation Optique (LNIO), Institut Charles Delaunay (ICD), Université de Technologie de Troyes (UTT)-Centre National de la Recherche Scientifique (CNRS)-Université de Technologie de Troyes (UTT)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physico-Chimie des Matériaux Luminescents (LPCML), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), ENEA C.R. Frascati, Via E. Fermi, 45, 00044 Frascati, Roma, Italy, affiliation inconnue, Laboratoire d'électronique, optoélectronique et microsystèmes (LEOM), École Centrale de Lyon (ECL), Institut FRESNEL (FRESNEL), Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon, and Centre National de la Recherche Scientifique (CNRS)-École Centrale de Marseille (ECM)-Aix Marseille Université (AMU)

Subjects

Electric fields, Materials science, Microscope, High numerical aperture optics, Scanning electron microscope, 02 engineering and technology, Optical microscopy, 01 natural sciences, law.invention, 010309 optics, chemistry.chemical_compound, Scanning probe microscopy, Optics, Optical microscope, law, 0103 physical sciences, Scanning tunneling microscopy, business.industry, Lithium fluoride, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, chemistry, [SPI.OPTI]Engineering Sciences [physics]/Optics / Photonic, Near-field scanning optical microscope, Scanning tunneling microscope, 0210 nano-technology, business, Scanning electron microscopy, Electron-beam lithography

Abstract

We report fluorescence imaging of colour centres in Lithium Fluoride (LiF) using an apertureless Scanning Near Field Optical Microscope (SNOM). The sample consists of periodically spaced submicrometric coloured areas F-2 laser-active colour centres produced by low-energy electron beam lithography on the surface of a LiF thin film. A silicon Atomic Force Microscope (AFM) tip is used as an apertureless optical probe. AFM images show a uniform surface roughness with a RMS of 7.2 nm. The SNOM images of the red fluorescence of colour centres excited at lambda =458 nm with an argon ion laser show that the local photon emission is unambiguously related to the coloured areas and that topographic artefacts can be excluded. (C)2001 Optical Society of America.

Published

2001

28. Emission and excitation spectra of silicon-related luminescent centers in CVD-grown diamond films

Author

Fabrizia Somma, Stefano Salvatori, Mariacristina Rossi, F. Galluzzi, Rosa Maria Montereali, Rossi, Maria Cristina, Salvatori, S, Galluzzi, F, Montereali, Rm, and Somma, Fabrizia

Subjects

Materials science, Photoluminescence, Silicon, business.industry, Mechanical Engineering, Material properties of diamond, Diamond, chemistry.chemical_element, General Chemistry, Chemical vapor deposition, Electronic structure, engineering.material, Electronic, Optical and Magnetic Materials, chemistry, Materials Chemistry, engineering, Optoelectronics, Electrical and Electronic Engineering, Luminescence, business, Excitation

Abstract

Luminescence properties of silicon-related centers in CVD-grown diamond films and their spatial distribution along the growth direction have been investigated. It is found that the lineshape and peak position of the emission band depend both on excitation energy and light focalization depth, suggesting the coexistence of two optical centers related to isolated vacancies and to silicon-vacancy complexes. A simple model of the electronic structure of this defect is proposed. (C) 1997 Elsevier Science S.A.

29. Influence of a Solid Surface on PNIPAM Microgel Films.

Author

Nigro V, Angelini R, Buratti E, Colantonio C, D'Amato R, Dinelli F, Franco S, Limosani F, Montereali RM, Nichelatti E, Piccinini M, Vincenti MA, and Ruzicka B

Abstract

Stimuli-responsive microgels have attracted great interest in recent years as building blocks for fabricating smart surfaces with many technological applications. In particular, PNIPAM microgels are promising candidates for creating thermo-responsive scaffolds to control cell growth and detachment via temperature stimuli. In this framework, understanding the influence of the solid substrate is critical for tailoring microgel coatings to specific applications. The surface modification of the substrate is a winning strategy used to manage microgel-substrate interactions. To control the spreading of microgel particles on a solid surface, glass substrates are coated with a PEI or an APTES layer to improve surface hydrophobicity and add positive charges on the interface. A systematic investigation of PNIPAM microgels spin-coated through a double-step deposition protocol on pristine glass and on functionalised glasses was performed by combining wettability measurements and Atomic Force Microscopy. The greater flattening of microgel particles on less hydrophilic substrates can be explained as a consequence of the reduced shielding of the water-substrate interactions that favors electrostatic interactions between microgels and the substrate. This approach allows the yielding of effective control on microgel coatings that will help to unlock new possibilities for their application in biomedical devices, sensors, or responsive surfaces.

Published

2024

30. Visible proton Bragg curve imaging by colour centre photoluminescence in radiation detectors based on lithium fluoride films on silica.

Author

Montereali RM, Nigro V, Piccinini M, Vincenti MA, Nenzi P, Ronsivalle C, and Nichelatti E

Abstract

Passive solid-state radiation detectors, based on the visible photoluminescence (PL) of radiation-induced colour centres in optically transparent lithium fluoride (LiF), polycrystalline thin films are under investigation for proton beam advanced diagnostics. After proton exposure, the latent images stored in LiF as local formations of stable F 2 and F 3 + aggregate defects, are directly read with a fluorescence microscope under illumination in the blue spectral range. Adopting a suitable irradiation geometry, the energy density that protons deposit in the material can be recorded as a spatial distribution of these light-emitting defects, from which a luminous replica of the proton Bragg curve can be thereafter extracted and analysed to reconstruct the proton beam energy spectrum. Their peculiar properties, such as wide dynamic range and linearity of the spectrally-integrated PL response vs. dose, make the investigation of two-dimensional LiF film radiation detectors grown on several types of substrate highly attractive. Here, the case of a LiF thin film thermally evaporated on a silica substrate, irradiated at grazing incidence with a 35 MeV proton beam, is investigated and reported for the first time. A comparison of the measured photoluminescent Bragg curve with Monte Carlo simulations demonstrates that the Bragg peak in the film is located at the very same position that would be expected in the underlying silica substrate rather than in LiF. The film packing density is shown not to have a significant effect on the peak depth, while even small nonzero grazing angle of the impinging proton beam is able to significantly modify the shape of the Bragg curve. These findings are ascribed to the effects of multiple Coulomb scattering in both the film and the substrate and are interesting for proton beam diagnostics and dosimetry., (Creative Commons Attribution license.)

Published

2024

31. Advanced spectroscopic investigation of colour centres in LiF crystals irradiated with monochromatic hard x-rays.

Author

Vincenti MA, Montereali RM, Bonfigli F, Nichelatti E, Nigro V, Piccinini M, Koenig M, Mabey P, Rigon G, Dabrowski HJ, Benkadoum Y, Mercere P, Da Silva P, Pikuz T, Ozaki N, Makarov S, Pikuz S, and Albertazzi B

Abstract

Nominally-pure lithium fluoride (LiF) crystals were irradiated with monochromatic hard x-rays of energy 5, 7, 9 and 12 keV at the METROLOGIE beamline of the SOLEIL synchrotron facility, in order to understand the role of the selected x-ray energy on their visible photoluminescence (PL) response, which is used for high spatial resolution 2D x-ray imaging detectors characterized by a wide dynamic range. At the energies of 7 and 12 keV the irradiations were performed at five different doses corresponding to five uniformly irradiated areas, while at 5 and 9 keV only two irradiations at two different doses were carried out. The doses were planned in a range between 4 and 1.4 × 10 3 Gy (10.5 mJ cm -3 to 3.7 J cm -3 ), depending on the x-ray energy. After irradiation at the energies of 7 and 12 keV, the spectrally-integrated visible PL intensity of the F 2 and F 3 + colour centres (CCs) generated in the LiF crystals, carefully measured by fluorescence microscopy under blue excitation, exhibits a linear dependence on the irradiation dose in the investigated dose range. This linear behaviour was confirmed by the optical absorption spectra of the irradiated spots, which shows a similar linear behaviour for both the F 2 and F 3 + CCs, as derived from their overlapping absorption band at around 450 nm. At the highest x-ray energy, the average concentrations of the radiation-induced F, F 2 and F 3 + CCs were also estimated. The volume distributions of F 2 defects in the crystals irradiated with 5 and 9 keV x-rays were reconstructed in 3D by measuring their PL signal using a confocal laser scanning microscope operating in fluorescence mode. On-going investigations are focusing on the results obtained through this z -scanning technique to explore the potential impact of absorption effects at the excitation laser wavelength., (Creative Commons Attribution license.)

Published

2024

32. Bragg Curve Detection of Low-Energy Protons by Radiophotoluminescence Imaging in Lithium Fluoride Thin Films.

Author

Montereali RM, Nigro V, Piccinini M, Vincenti MA, Ampollini A, Nenzi P, Ronsivalle C, and Nichelatti E

Abstract

Lithium fluoride (LiF) crystals and thin films are utilized as radiation detectors for energy diagnostics of proton beams. This is achieved by analyzing the Bragg curves in LiF obtained by imaging the radiophotoluminescence of color centers created by protons. In LiF crystals, the Bragg peak depth increases superlinearly with the particle energy. A previous study has shown that, when 35 MeV protons impinge at grazing incidence onto LiF films deposited on Si(100) substrates, the Bragg peak in the films is located at the depth where it would be found in Si rather than in LiF due to multiple Coulomb scattering. In this paper, Monte Carlo simulations of proton irradiations in the 1-8 MeV energy range are performed and compared to experimental Bragg curves in optically transparent LiF films on Si(100) substrates. Our study focuses on this energy range because, as energy increases, the Bragg peak gradually shifts from the depth in LiF to that in Si. The impact of grazing incidence angle, LiF packing density, and film thickness on shaping the Bragg curve in the film is examined. At energies higher than 8 MeV, all these quantities must be considered, although the effect of packing density plays a minor role.

Published

2023

33. THE TOP-IMPLART PROTON LINEAR ACCELERATOR: INTERIM CHARACTERISTICS OF THE 35 MEV BEAM.

Author

De Angelis C, Ampollini A, Bazzano G, Della Monaca S, Ghio F, Giuliani F, Lucentini M, Montereali RM, Nenzi P, Notaro C, Placido C, Piccinini M, Ronsivalle C, Santavenere F, Soriani A, Spurio A, Strigari L, Surrenti V, Trinca E, Vadrucci M, Cisbani E, and Picardi L

Subjects

Equipment Design, Radiation Dosage, Particle Accelerators instrumentation, Protons, Radiometry instrumentation, Radiometry methods

Abstract

In the framework of the Italian TOP-IMPLART project (Regione Lazio), ENEA-Frascati, ISS and IFO are developing and constructing the first proton linear accelerator based on an actively scanned beam for tumor radiotherapy with final energy of 150 MeV. An important feature of this accelerator is modularity: an exploitable beam can be delivered at any stage of its construction, which allows for immediate characterization and virtually continuous improvement of its performance. Currently, a sequence of 3 GHz accelerating modules combined with a commercial injector operating at 425 MHz delivers protons up to 35 MeV. Several dosimetry systems were used to obtain preliminary characteristics of the 35-MeV beam in terms of stability and homogeneity. Short-term stability and homogeneity better than 3% and 2.6%, respectively, were demonstrated; for stability an improvement with respect to the respective value obtained for the previous 27 MeV beam., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2019

34. CHARACTERIZATION OF 27 MEV PROTON BEAM GENERATED BY TOP-IMPLART LINEAR ACCELERATOR.

Author

De Angelis C, Ampollini A, Basile E, Cisbani E, Della Monaca S, Ghio F, Montereali RM, Picardi L, Piccinini M, Placido C, Ronsivalle C, Soriani A, Strigari L, Trinca E, and Vadrucci M

Subjects

Fluorides chemistry, Linear Energy Transfer, Lithium Compounds chemistry, Silicon chemistry, Film Dosimetry instrumentation, Film Dosimetry methods, Particle Accelerators instrumentation, Protons

Abstract

The first proton linear accelerator for tumor therapy based on an actively scanned beam up to the energy of 150 MeV, is under development and construction by ENEA-Frascati, ISS and IFO, under the Italian TOP-IMPLART project. Protons up to the energy of 7 MeV are generated by a customized commercial injector operating at 425 MHz; currently three accelerating modules allow proton delivery with energy up to 27 MeV. Beam homogeneity and reproducibility were studied using a 2D ionizing chamber, EBT3 films, a silicon diode, MOSFETs, LiF crystals and alanine dosimetry systems. Measurements were taken in air with the detectors at ~1 m from the beam line exit window. The maximum energy impinging on the detectors surface was 24.1 MeV, an energy suitable for radiobiological studies. Results showed beam reproducibility within 5% and homogeneity within 4%, on a circular surface of 16 mm in diameter.

Published

2018

35. Calibration of GafChromic EBT3 for absorbed dose measurements in 5 MeV proton beam and (60)Co γ-rays.

Author

Vadrucci M, Esposito G, Ronsivalle C, Cherubini R, Marracino F, Montereali RM, Picardi L, Piccinini M, Pimpinella M, Vincenti MA, and De Angelis C

Subjects

Air, Calibration, Cobalt Radioisotopes therapeutic use, Film Dosimetry instrumentation, Gamma Rays, Proton Therapy, Radiation Dosage, Radiotherapy, Intensity-Modulated instrumentation, Radiotherapy, Intensity-Modulated methods, Silicon, Water, Film Dosimetry methods

Abstract

Purpose: To study EBT3 GafChromic film in low-energy protons, and for comparison purposes, in a reference (60)Co beam in order to use it as a calibrated dosimetry system in the proton irradiation facility under construction within the framework of the Oncological Therapy with Protons (TOP)-Intensity Modulated Proton Linear Accelerator for RadioTherapy (IMPLART) Project at ENEA-Frascati, Italy., Methods: EBT3 film samples were irradiated at the Istituto Nazionale di Fisica Nucleare-Laboratori Nazionali di Legnaro, Italy, with a 5 MeV proton beam generated by a 7 MV Van de Graaff CN accelerator. The nominal dose rates used were 2.1 Gy/min and 40 Gy/min. The delivered dose was determined by measuring the particle fluence and the energy spectrum in air with silicon surface barrier detector monitors. A preliminary study of the EBT3 film beam quality dependence in low-energy protons was conducted by passively degrading the beam energy. EBT3 films were also irradiated at ENEA-National Institute of Ionizing Radiation Metrology with gamma radiation produced by a (60)Co source characterized by an absorbed dose to water rate of 0.26 Gy/min as measured by a calibrated Farmer type ionization chamber. EBT3 film calibration curves were determined by means of a set of 40 film pieces irradiated to various doses ranging from 0.5 Gy to 30 Gy absorbed dose to water. An EPSON Expression 11000XL color scanner in transmission mode was used for film analysis. Scanner response stability, intrafilm uniformity, and interfilm reproducibility were verified. Optical absorption spectra measurements were performed on unirradiated and irradiated EBT3 films to choose the most sensitive color channel to the dose range used., Results: EBT3 GafChromic films show an under response up to about 33% for low-energy protons with respect to (60)Co gamma radiation, which is consistent with the linear energy transfer dependence already observed with higher energy protons, and a negligible dose-rate dependence in the 2-40 Gy/min range. Short- and long-term scanner stabilities were 0.5% and 1.5%, respectively; film uniformity and reproducibility were better than 0.5%., Conclusions: The main purpose of this study was to implement EBT3 dosimetry in the proton low-energy radiobiology line of the TOP-IMPLART accelerator, having a maximum energy of 7 MeV. Low-energy proton and (60)Co calibrated sources were used to investigate the behavior of film response vs to be written in italicum dose. The calibration in 5 MeV protons is currently used for dose assessment in the radiobiological experiments at the TOP-IMPLART accelerator carried out at that energy value.

Published

2015

36. Contact X-ray microscopy of living cells by using LiF crystal as imaging detector.

Author

Reale L, Bonfigli F, Lai A, Flora F, Albertano P, DI Giorgio ML, Mezi L, Montereali RM, Faenov A, Pikuz T, Almaviva S, Francucci M, Gaudio P, Martellucci S, Richetta M, and Poma A

Subjects

Animals, Chlamydomonas ultrastructure, Cyanobacteria ultrastructure, Lasers, Macrophages ultrastructure, Mice, RAW 264.7 Cells, X-Rays, Fluorides, Lithium Compounds, Microscopy methods

Abstract

In this paper, the use of lithium fluoride (LiF) as imaging radiation detector to analyse living cells by single-shot soft X-ray contact microscopy is presented. High resolved X-ray images on LiF of cyanobacterium Leptolyngbya VRUC135, two unicellular microalgae of the genus Chlamydomonas and mouse macrophage cells (line RAW 264.7) have been obtained utilizing X-ray radiation in the water window energy range from a laser plasma source. The used method is based on loading of the samples, the cell suspension, in a special holder where they are in close contact with a LiF crystal solid-state X-ray imaging detector. After exposure and sample removal, the images stored in LiF by the soft X-ray contact microscopy technique are read by an optical microscope in fluorescence mode. The clear image of the mucilaginous sheath the structure of the filamentous Leptolyngbya and the visible nucleolus in the macrophage cells image, are noteworthiness results. The peculiarities of the used X-ray radiation and of the LiF imaging detector allow obtaining images in absorption contrast revealing the internal structures of the investigated samples at high spatial resolution. Moreover, the wide dynamic range of the LiF imaging detector contributes to obtain high-quality images. In particular, we demonstrate that this peculiar characteristic of LiF detector allows enhancing the contrast and reveal details even when they were obscured by a nonuniform stray light., (© 2015 The Authors Journal of Microscopy © 2015 Royal Microscopical Society.)

Published

2015

37. Photoluminescence from a homogeneous volume source within an optical multilayer: analytical formulas.

Author

Nichelatti E and Montereali RM

Abstract

A theoretical model for light emission from a homogeneous volume source, such as an optically active layer, within a multilayer is demonstrated. The role of an external linearly polarized optical pump is taken into account. The resulting formulas for the radiated powers are fully analytical. They are applied to investigate the effect of a plane-wave pump in a basic λ/2 cavity and to calculate the photoluminescence polar diagrams of color centers from three resonating thin-film lithium-fluoride-based microstructures.

Published

2012

38. [Lithium fluoride: not only dosimetry, but also X ray imaging?].

Author

Bonfigli F, Campurra G, Montereali RM, and Vincenti MA

Subjects

Humans, Radiometry, Fluorides, Lithium Compounds, X-Rays

Abstract

Lithium fluoride is a well known material used for dosimetry. In the last years it was proposed and tested also as imaging detector for X-ray microscopy. Optical microscopy represents the oldest and most used imaging technique for medicine and cell biology investigations; later other imaging techniques, including electron microscopy, were introduced. The recent technological developments in the soft X-ray field, concerning sources, optics and detectors, have been increased the interest of physicians and biologists for X-ray microscopy, mainly to obtain in vivo imaging of cells. An innovative imaging detector has been proposed and tested by researchers of C.R. ENEA Frascati, as handy, versatile and compact plate for soft X-ray imaging with very high spatial resolution, wide dynamic range, large field of view and easy to read by an optical microscope. Scientific and technological applications can be foreseen in several fields, as nanotechnologies, materials, photonics, life science and microscopy (including cell imaging, also in vivo).

Published

2011

39. Development of a thermal neutron detector based on scintillating fibers and silicon photomultipliers.

Author

Barbagallo M, Cosentino L, Greco G, Montereali RM, Pappalardo A, Scirè C, Scirè S, Vincenti MA, and Finocchiaro P

Abstract

We propose a technique for thermal neutron detection, based on a (6)Li converter placed in front of scintillating fibers readout by means of silicon photomultipliers. Such a technique allows building cheap and compact detectors and dosimeters, thus possibly opening new perspectives in terms of granular monitoring of neutron fluxes as well as space-resolved neutron detection.

Published

2010

40. Photo-induced gratings in thin color center layers on lithium fluoride.

Author

Bonfigli F, Vincenti MA, Almaviva S, Montereali RM, Nichelatti E, Nogueira RN, and Kalinowski HJ

Abstract

We study the recording of permanent Bragg gratings on surface-colored lithium fluoride (LiF) crystals by using the interference pattern of a continuous-wave UV argon-ion laser operating at 244 nm. Gratings with spatial periodicity ranging from 400 to 1000 nm are written by using a phase-mask interferometer and are stable for several months after the writing process. Absorption and photoluminescence spectra show the bleaching of primary F and F -aggregate laser-active color centers as a result of the process. Confocal microscopy is used to determine the pitch and the profile of the fluorescent gratings. The UV laser-induced optical bleaching in highly colored LiF ultrathin layers is responsible for the periodic spatial modulation of absorption and photoemission properties that characterize the gratings. In the colored surface layer, a reduction of as much as 50% of the initial color-center-induced refractive-index increase has been estimated in the bleached areas.

Published

2009

41. X-ray microscopy of plant cells by using LiF crystal as a detector.

Author

Reale L, Bonfigli F, Lai A, Flora F, Poma A, Albertano P, Bellezza S, Montereali RM, Faenov A, Pikuz T, Almaviva S, Vincenti MA, Francucci M, Gaudio P, Martellucci S, and Richetta M

Subjects

Animals, Chlamydomonas cytology, Chlorella cytology, Fluorides, Lithium Compounds, Microscopy methods, Olea cytology, Pollen cytology, X-Rays

Abstract

A lithium fluoride (LiF) crystal has been utilized as a new soft X-ray detector to image different biological samples at a high spatial resolution. This new type of image detector for X-ray microscopy has many interesting properties: high resolution (nanometer scale), permanent storage of images, the ability to clear the image and reuse the LiF crystal, and high contrast with greater dynamic range. Cells of the unicellular green algae Chlamydomonas dysosmos and Chlorella sorokiniana, and pollen grains of Olea europea have been used as biological materials for imaging. The biological samples were imaged on LiF crystals by using the soft X-ray contact microscopy and contact micro-radiography techniques. The laser plasma soft X-ray source was generated using a Nd:YAG/Glass laser focused on a solid target. The X-ray energy range for image acquisition was in the water-window spectral range for single shot contact microscopy of very thin biological samples (single cells) and around 1 keV for multishots microradiography. The main aim of this article is to highlight the possibility of using a LiF crystal as a detector for the biological imaging using soft X-ray radiation and to demonstrate its ability to visualize the microstructure within living cells., (2008 Wiley-Liss, Inc.)

Published

2008

42. SNOM images of X-ray radiographs at nano-scale stored in a thin layer of lithium fluoride.

Author

Oliva C, Ustione A, Almaviva S, Baldacchini G, Bonfigli F, Flora F, Lai A, Montereali RM, Faenov AY, Pikuz TA, Francucci M, Gaudio P, Martellucci S, Richetta M, Reale L, and Cricenti A

Subjects

Crystallization, Microscopy, Confocal, Microscopy, Fluorescence, Nanotechnology instrumentation, Nanotechnology methods, Olea ultrastructure, Pollen ultrastructure, X-Rays, Fluorides, Lithium Compounds, Microscopy, Scanning Probe, Radiography instrumentation, Radiography methods

Abstract

In this work, we report a method to observe soft X-ray radiographs at nanoscale of various kind of samples, biological and metallic, stored in a thin layer of lithium fluoride, employing scanning near-field optical microscopy with an optical resolution that reaches 50 nm. Lithium fluoride material works as a novel image detector for X-ray nano-radiographs, due to the fact that extreme ultraviolet radiation and soft X-rays efficiently produce stable point defects emitting optically stimulated visible luminescence in a thin surface layer. The bi-dimensional distribution of the so-created defects depends on the local nanostructure of the investigated sample.

Published

2008

43. High-resolution water window X-ray imaging of in vivo cells and their products using LiF crystal detectors.

Author

Bonfigli F, Faenov A, Flora F, Francucci M, Gaudio P, Lai A, Martellucci S, Montereali RM, Pikuz T, Reale L, Richetta M, Vincenti MA, and Baldacchini G

Subjects

Chlorella metabolism, Crystallization, Microscopy, Fluorescence methods, Chlorella cytology, Fluorides chemistry, Lithium Compounds chemistry, Microscopy, Fluorescence instrumentation, X-Rays

Abstract

High contrast imaging of in vivo Chlorella sorokiniana cells with submicron spatial resolution was obtained with a contact water window X-ray microscopy technique using a point-like, laser-plasma produced, water-window X-ray radiation source, and LiF crystals as detectors. This novel type of X-ray imaging detectors is based on photoluminescence of stable electronic point defects, characterized by high intrinsic resolution. The fluorescence images obtained on LiF crystals exposed in single-shot experiments demonstrate the high sensitivity and dynamic range of this new detector. The powerful performances of LiF crystals allowed us to detect the exudates of Chlorella cells in their living medium and their spatial distribution in situ, without any special sample preparation., (2007 Wiley-Liss, Inc)

Published

2008

44. Lithium fluoride as a novel X-ray image detector for biological mu-world capture.

Author

Baldacchini G, Bonfigli F, Faenov A, Flora F, Montereali RM, Pace A, Pikuz T, and Reale L

Subjects

Animals, Crystallization methods, Diptera, Electron Probe Microanalysis methods, Equipment Design, Equipment Failure Analysis, Feasibility Studies, Fluorides radiation effects, Insecta, Lithium Compounds radiation effects, Microscopy, Fluorescence methods, Nanotechnology methods, Radiography methods, Reproducibility of Results, Sensitivity and Specificity, X-Rays, Electron Probe Microanalysis instrumentation, Fluorides chemistry, Lithium Compounds chemistry, Microscopy, Fluorescence instrumentation, Nanotechnology instrumentation, Radiography instrumentation, Wings, Animal diagnostic imaging, X-Ray Intensifying Screens

Abstract

X-ray microradiographs of small biological objects, such as animals and plant materials at micrometric resolution, are currently performed by various methods, all of which are limited by the resolution or the dynamic range of the image detectors. Here a novel X-ray image detector is discussed, in which the previous limitations have been overcome. A film of lithium fluoride salt is used as a detector, in which the stored biological image is read by observing the optically stimulated visible luminescence of the active color centers, efficiently produced by the X-rays.

Published

2003

45. Radiative and nonradiative processes in the optical cycle of the F3+ center in LiF.

Author

Baldacchini G, Cremona M, d'Auria G, Montereali RM, and Kalinov V V

Published

1996