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355 results on '"FASOLI, MAURO"'

201. Optical absorption and emission properties of Gd3+ in silica host

Author

Moretti, F, Chiodini, N, Fasoli, M, Griguta, L, Vedda, A, MORETTI, FEDERICO, CHIODINI, NORBERTO, FASOLI, MAURO, VEDDA, ANNA GRAZIELLA, Moretti, F, Chiodini, N, Fasoli, M, Griguta, L, Vedda, A, MORETTI, FEDERICO, CHIODINI, NORBERTO, FASOLI, MAURO, and VEDDA, ANNA GRAZIELLA

Abstract

We present a study of the optical properties of Gd-doped sol-gel silica glasses densified at different temperatures (from 450 up to 1050 °C) by means of optical absorption (OA) and radio luminescence (RL). The effect of a post-densification rapid thermal treatment (RTT) at approximately 1800 °C is also considered. Room temperature OA and RL measurements have revealed a slight low-energy shift of Gd3+ absorption/emission lines by densification temperature increasing accompanied by a parallel increase of Gd3+ RL intensities, especially strong after RTT. These effects are interpreted on the basis of structural modifications of the silica matrix and of the removal of non-radiative channels competing with Gd3+ emission. Moreover, RL spectra of fully densified samples display high-energy shoulders on the 6P7/2-8S Gd3+ emission possibly related to crystal field splitting of the 6P7/2 state. This interpretation is supported by the temperature dependence of RL spectra, investigated in the 10-320 K temperature interval: an increase of the intensity of high-energy components vs. temperature has been observed, which can be interpreted as due to thermally assisted excitation of electrons belonging to the lower 6P7/2 state to higher crystal field states and their subsequent radiative recombination. © 2006 Elsevier B.V. All rights reserved.

Published
2007

205. Ce-doped SiO2 glass as scintillating material: Variation on the synthesis procedure for the improvement of material properties

Author

Chiodini, N, DI MARTINO, D, Fasoli, M, Lauria, A, Moretti, F, Vedda, A, CHIODINI, NORBERTO, DI MARTINO, DANIELA, FASOLI, MAURO, LAURIA, ALESSANDRO, MORETTI, FEDERICO, VEDDA, ANNA GRAZIELLA, Chiodini, N, DI MARTINO, D, Fasoli, M, Lauria, A, Moretti, F, Vedda, A, CHIODINI, NORBERTO, DI MARTINO, DANIELA, FASOLI, MAURO, LAURIA, ALESSANDRO, MORETTI, FEDERICO, and VEDDA, ANNA GRAZIELLA

Abstract

In this paper different sol gel syntheses strategies are adopted in order to produce Ce - doped silica - glasses scintillators with improved properties. Variations on the synthesis procedure are adopted to reduce the hydroxyl content of the sol gel glass; to this purpose, a fluorine derivative of silicon alkoxide was added in the sol gel reaction. Since a drawback of Ce - doped sol gel glasses is the partial oxidation of Ce3+ to Ce4+ in the matrix probably occurring during the sintering procedure, both Ce - doped xerogel and fluorinated xerogel were treated under reducing atmosphere (H 2:Ar) instead of the usual oxidizing atmosphere. Glasses obtained in such ways are compared with commercial synthetic glasses and with previously produced sol gel samples by spectroscopic IR absorption measurements, and by radio-luminescence experiments.

Published
2006

206. Feasibility study for the use of Ce3+-doped optical fibres in radiotherapy

Author

Mones, E, Veronese, I, Moretti, F, Fasoli, M, Loi, G, Negri, E, Brambilla, M, Chiodini, N, Brambilla, G, Vedda, A, MORETTI, FEDERICO, FASOLI, MAURO, CHIODINI, NORBERTO, VEDDA, ANNA GRAZIELLA, Mones, E, Veronese, I, Moretti, F, Fasoli, M, Loi, G, Negri, E, Brambilla, M, Chiodini, N, Brambilla, G, Vedda, A, MORETTI, FEDERICO, FASOLI, MAURO, CHIODINI, NORBERTO, and VEDDA, ANNA GRAZIELLA

Abstract

A feasibility study for the use of a Ce3+-doped optical fibre as a radio luminescent dosimeter in radiotherapy was carried out. The prototype showed a satisfactory reproducibility (1.7%) and a good linearity over a clinically relevant dose range (from few cGy to approximately 10 Gy). Moreover, the device enabled a reliable evaluation of the absorbed dose, independently of the dose rate and of the orientation of the incoming radiation. A slight energy dependence of the response was observed when the system was irradiated with electron beams of different energies. The results indicate that the employment of this new system might be very promising both for quality control measurements and "in vivo" dosimetry. Some improvements are nevertheless still required in order to allow a real-time evaluation of the Cherenkov radiation produced by the irradiated portion of the passive optical fibre, which influences some of the dosimetric properties of the system. (c) 2006 Elsevier B.V. All rights reserved.

Published
2006

207. Insights into microstructural features governing Ce3+ luminescence efficiency in sol-gel silica glasses

Author

Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Morazzoni, F, Moretti, F, Scotti, R, Spinolo, G, Baraldi, A, Capelletti, R, Mazzera, M, Nikl, M, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, MORAZZONI, FRANCA, SCOTTI, ROBERTO, SPINOLO, GIORGIO MARIO, DI MARTINO, DANIELA, FASOLI, MAURO, MORETTI, FEDERICO, Nikl, M., Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Morazzoni, F, Moretti, F, Scotti, R, Spinolo, G, Baraldi, A, Capelletti, R, Mazzera, M, Nikl, M, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, MORAZZONI, FRANCA, SCOTTI, ROBERTO, SPINOLO, GIORGIO MARIO, DI MARTINO, DANIELA, FASOLI, MAURO, MORETTI, FEDERICO, and Nikl, M.

Abstract

The radioluminescence (RL) properties of Ce-doped silica glasses prepared by sol-gel method were investigated as a function of the dopant amount in a wide range of concentrations (Ce:Si molar ratios from 1 x 10(-5) to 5 x 10(-2)). The effects of xerogel densification temperature and of a postdensification thermal treatment were also considered. In order to understand the microstructural features governing Ce3 luminescence efficiency, optical absorption measurements in the ultraviolet, visible, and infrared regions and time-resolved photoluminescence experiments were performed. The complex dependence of RL intensity upon rare-earth (RE) concentration and thermal treatment was attributed to the role of OH vibrations as nonradiative recombination channels, as well as to the formation of RE aggregates in the silica matrix. Specifically, the segregation of CeO2 nanoparticles, in which Ce4 does not supply any radiative emission, has been revealed by infrared absorption measurements, in agreement with previous Raman, transmission electron microscopy, and X-ray diffraction data. Moreover, an optical absorption band, centered at 2.4 eV and whose intensity increases with the square of cerium concentration, was observed and tentatively assigned to an intervalence electron-transfer transition involving Ce3+Ce4 dimers. Postdensification thermal treatments markedly reduce the intensity of this band and increase RL intensity. The relationship between the 2.4 eV band and the RL properties will be outlined. In particular, the increase in RL intensity will be discussed, mainly as a consequence of microscopic modifications leading to an improvement of the charge-transfer efficiency toward emitting centers.

Published
2006

208. Rare-earth aggregates in sol-gel silica and their influence on optical properties

Author

Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Martini, M, Paleari, A, Spinolo, G, Nikl, M, Solovieva, N, Baraldi, A, Capelletti, R, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, DI MARTINO, DANIELA, FASOLI, MAURO, MARTINI, MARCO, PALEARI, ALBERTO MARIA FELICE, SPINOLO, GIORGIO MARIO, Capelletti, R., Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Martini, M, Paleari, A, Spinolo, G, Nikl, M, Solovieva, N, Baraldi, A, Capelletti, R, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, DI MARTINO, DANIELA, FASOLI, MAURO, MARTINI, MARCO, PALEARI, ALBERTO MARIA FELICE, SPINOLO, GIORGIO MARIO, and Capelletti, R.

Abstract

Radio-luminescence, time resolved photo-luminescence and Raman spectroscopy measurements were performed on Ce-doped sol-gel silica glasses. Quenching of the 5d-4f Ce3+ emission transition was observed by increasing Ce 3+ concentration above 0.04 mol%, evidenced by a decrease of the emission intensity accompanied by the appearance of a fast component in the photoluminescence time decay. Raman measurements revealed the formation of CeO2 clusters, which can be considered a cause of the observed luminescence quenching.

Published
2005

209. Thermally stimulated luminescence of Ce and Tb doped SiO2 sol-gel glasses

Author

Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Griguta, L, Moretti, F, Rosetta, E, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, DI MARTINO, DANIELA, FASOLI, MAURO, MORETTI, FEDERICO, Rosetta, E., Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Griguta, L, Moretti, F, Rosetta, E, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, DI MARTINO, DANIELA, FASOLI, MAURO, MORETTI, FEDERICO, and Rosetta, E.

Abstract

Thermally stimulated luminescence (TSL) properties of cerium and terbium doped SiO2 sol-gel glasses were studied after X-ray irradiation in the temperature range 10-700 K. The role of Ce3+ and Tb3+ as recombination centers was shown. The existence of a distribution of trap levels was observed; the activation energies of such a distribution were calculated to extend from about 8 x 10(-3) eV up to 1.8 eV for both cerium and terbium doped sol-gel glasses. The effect of a post-densification thermal treatment on TSL properties was also analyzed. (c) 2005 Elsevier B.V. All rights reserved.

Published
2005

213. SiO2 - Based scintillating fibres for X-ray detection

Author

Chiodini, N, Brambilla, G, Vedda, A, DI MARTINO, D, Fasoli, M, Lauria, A, Redaelli, M, Rosetta, E, CHIODINI, NORBERTO, VEDDA, ANNA GRAZIELLA, DI MARTINO, DANIELA, FASOLI, MAURO, LAURIA, ALESSANDRO, ROSETTA, EMANUELA, Chiodini, N, Brambilla, G, Vedda, A, DI MARTINO, D, Fasoli, M, Lauria, A, Redaelli, M, Rosetta, E, CHIODINI, NORBERTO, VEDDA, ANNA GRAZIELLA, DI MARTINO, DANIELA, FASOLI, MAURO, LAURIA, ALESSANDRO, and ROSETTA, EMANUELA

Abstract

New Ce3+ - doped high-grade silica glasses are synthesized by a modified sol-gel method, to be used as scintillators for the detection of X-rays and low energy particles. These glasses have efficiency a factor of 2 higher than state-of-the-art Bi4Ge3O12 crystals, high radiation hardness and high compatibility with the silica-based photonic technology. Powder-in-tube and rod-in-tube techniques are used to fabricate low-loss optical fibres with 135, 220 and 660 microns diameter. Device prototypes are obtained by fusion-splicing these fibres to commercial high numerical aperture optical fibres.

Published
2004

214. Luminescence properties of rare-earth ions in SiO2 glasses prepared by the sol-gel method

Author

Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Martini, M, Moretti, F, Rosetta, E, Spinolo, G, Nikl, M, Solovieva, N, Baraldi, A, Capelletti, R, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, FASOLI, MAURO, MARTINI, MARCO, MORETTI, FEDERICO, ROSETTA, EMANUELA, SPINOLO, GIORGIO MARIO, DI MARTINO, DANIELA, Capelletti, R., Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Martini, M, Moretti, F, Rosetta, E, Spinolo, G, Nikl, M, Solovieva, N, Baraldi, A, Capelletti, R, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, FASOLI, MAURO, MARTINI, MARCO, MORETTI, FEDERICO, ROSETTA, EMANUELA, SPINOLO, GIORGIO MARIO, DI MARTINO, DANIELA, and Capelletti, R.

Abstract

Radio-luminescence (RL) and wavelength resolved thermally stimulated luminescence (TSL) measurements have been performed on sol-gel SiO2 glasses, undoped (with high OH- or low OH-content) and rare-earth (Ce, Gd and Tb) doped in the temperature range 10-310K. Moreover, a comparison has been performed between undoped sol-gel and commercial glasses. In undoped samples RL spectra are characterized by emissions at 1.9eV, 2.4 eV (only in high OH-content glasses) and 2.7 eV at 10K.; their nature is discussed and related to different intrinsic defects. Strong emission quenching is observed by temperature increasing. Besides similar intrinsic bands, the doped glasses RL emission spectra display typical emissions related to 5d-4f (Ce3+), 6P-8S (Gd3+) and 5D 3-7Fj, 5D4- 7Fj (Tb3+) transitions respectively, whose amplitudes increase by increasing the temperature above 150K. TSL measurements show the existence of glow peaks at ≈100 K and 220 K. The observed increase of RL rare-earth emission amplitudes above 150 K can be explained by considering (i) the progressive decrease of competitive host matrix recombination channels and (ii) the free carriers trapping at defect sites during irradiation (monitored by TSL), whose stability strongly depends upon temperature. © 2004 Elsevier B.V. All rights reserved.

Published
2004

215. Ce3+ -doped fibers for remote radiation dosimetry

Author

Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Keffer, S, Lauria, A, Martini, M, Moretti, F, Spinolo, G, Nikl, M, Solovieva, N, Brambilla, G, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, LAURIA, ALESSANDRO, MARTINI, MARCO, SPINOLO, GIORGIO MARIO, DI MARTINO, DANIELA, FASOLI, MAURO, MORETTI, FEDERICO, Brambilla, G., Vedda, A, Chiodini, N, DI MARTINO, D, Fasoli, M, Keffer, S, Lauria, A, Martini, M, Moretti, F, Spinolo, G, Nikl, M, Solovieva, N, Brambilla, G, VEDDA, ANNA GRAZIELLA, CHIODINI, NORBERTO, LAURIA, ALESSANDRO, MARTINI, MARCO, SPINOLO, GIORGIO MARIO, DI MARTINO, DANIELA, FASOLI, MAURO, MORETTI, FEDERICO, and Brambilla, G.

Abstract

A radioluminescent (RL) dosimetric system, based on a SiO2 optical fiber with the core doped by Ce3+ ions as luminescent activators has been investigated. Structural and optical properties of the luminescent fiber have been studied by Raman, refractive index, RL and scintillation time decay measurements, and compared to those obtained on bulk material. The RL response of a composite fiber made of a short portion of active Ce-doped fiber coupled to a long commercial one has been investigated by x-ray irradiation. A linear RL intensity response has been found in the dose rate interval 6x10(-3)-40 mGy/s together with a good radiation hardness, suggesting possible application in low-dose monitoring. (C) 2004 American Institute of Physics.

Published
2004

220. Rare-earth doped sol-gel silicate glasses for scintillator applications

Author

Chiodini, N, Fasoli, M, Martini, M, Morazzoni, F, Rosetta, E, Scotti, R, Spinolo, G, Vedda, A, Nikl, M, Solovieva, N, Baraldi, A, Capelletti, R, Francini, R, CHIODINI, NORBERTO, MARTINI, MARCO, MORAZZONI, FRANCA, SCOTTI, ROBERTO, SPINOLO, GIORGIO MARIO, VEDDA, ANNA GRAZIELLA, FASOLI, MAURO, Francini, R., Chiodini, N, Fasoli, M, Martini, M, Morazzoni, F, Rosetta, E, Scotti, R, Spinolo, G, Vedda, A, Nikl, M, Solovieva, N, Baraldi, A, Capelletti, R, Francini, R, CHIODINI, NORBERTO, MARTINI, MARCO, MORAZZONI, FRANCA, SCOTTI, ROBERTO, SPINOLO, GIORGIO MARIO, VEDDA, ANNA GRAZIELLA, FASOLI, MAURO, and Francini, R.

Abstract

Radio-, photo- and thermally stimulated - luminescence (RL, PL, TSL) measurements have been performed on SiO2 sol-gel glasses doped by 0.1 mol% Ce and 3 mol% Gd, and on (0.1 mol% Ce, 3 mol% Gd) co-doped samples. Ce3 5d-4f emission F caking at about 2.7 eV has been observed in the RL of SiO2: 0.1 mol% CC, while the typical (6)p-S-8 emission of Gd3 centred at 3.97 eV has been detected in SiO2: 3 mol% Gd. The co-doped sample displays both 5d-4f Ce3 and P-6-S-8 Gd3 emissions with reduced intensities with respect to those observed in the singly doped glasses. Moreover, in co-doped glasses the PL time decay patterns of both rare earth ions show a non exponential dependence and are significantly shortened. To explain such an effect non radiative de-excitation of both RE ions excited states involving energy transfers to defect levels is suggested. Bidirectional Gd3 <-> Ce3 energy transfers could also occur. Complementary TSL measurements put in evidence the existence of broad glow peaks at about 100 K and 220 K. The TSL spectra feature the RE ions emissions.

Published
2003

221. Correction to “Evidences of Rare-Earth Nanophases Embedded in Silica Using Vibrational Spectroscopy” [Jun 10 1361-1369

Author

Vedda, Anna, primary, Chiodini, Norberto, additional, Fasoli, Mauro, additional, Lauria, Alessandro, additional, Moretti, Federico, additional, Di Martino, Daniela, additional, Baraldi, Andrea, additional, Buffagni, Elisa, additional, Capelletti, Rosanna, additional, Mazzera, Margherita, additional, Bohacek, Pavel, additional, and Mihokova, Eva, additional

Published
2010
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224. High-efficiency SiO2:Ce3+ glass scintillators

Author

Chiodini, N, Fasoli, M, Martini, M, Rosetta, E, Spinolo, G, Vedda, A, Nikl, M, Solovieva, N, Baraldi, A, Capelletti, R, CHIODINI, NORBERTO, MARTINI, MARCO, SPINOLO, GIORGIO MARIO, VEDDA, ANNA GRAZIELLA, FASOLI, MAURO, Capelletti, R., Chiodini, N, Fasoli, M, Martini, M, Rosetta, E, Spinolo, G, Vedda, A, Nikl, M, Solovieva, N, Baraldi, A, Capelletti, R, CHIODINI, NORBERTO, MARTINI, MARCO, SPINOLO, GIORGIO MARIO, VEDDA, ANNA GRAZIELLA, FASOLI, MAURO, and Capelletti, R.

Abstract

We present the effect of a rapid thermal treatment (RTT) at high temperature (1800degreesC) on the radio-luminescence properties of Ce-doped SiO2 glasses prepared by the sol-gel method and previously densified at 1050degreesC. Cerium concentrations ranging from 0.05 up to 1 mol % were considered. We found that, for all concentrations, the RTT induces a strong increase of the Ce3 radio-luminescence efficiency; the x-ray-induced luminescence intensity of the SiO2:0.1% Ce is about twice that of Bi3Ge4O12. The decay time of the scintillation response, evaluated as approximate to50 ns, is not affected by RTT. Infrared absorption measurements indicate that the luminescence increase cannot be related to significant release of OH groups during RTT. The conversion of Ce4 ions into Ce3 ions can also be ruled out since an increase of about 20% of the intensity of the 4.8 eV optical absorption band related to Ce4 was observed after RTT. The occurrence of dissolution of rare-earth aggregates is suggested. (C) 2002 American Institute of Physics.

Published
2002

225. Ce-doped SiO 2 optical fibers for remote radiation sensing and measurement

Author

Chiodini, Norberto, primary, Vedda, Anna, additional, Fasoli, Mauro, additional, Moretti, Federico, additional, Lauria, Alessandro, additional, Cantone, Marie Claire, additional, Veronese, Ivan, additional, Tosi, Giampiero, additional, Brambilla, Marco, additional, Cannillo, Barbara, additional, Mones, Eleonora, additional, Brambilla, Gilberto, additional, and Petrovich, Marco, additional

Published
2009
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226. Gd-incorporation and luminescence properties in sol–gel silica glasses

Author

Di Martino, Daniela, primary, Chiodini, Norberto, additional, Fasoli, Mauro, additional, Moretti, Federico, additional, Vedda, Anna, additional, Baraldi, Andrea, additional, Buffagni, Elisa, additional, Capelletti, Rosanna, additional, Mazzera, Margherita, additional, Nikl, Martin, additional, Angella, Giuliano, additional, and Azzoni, Carlo B., additional

Published
2008
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230. O- centers in LuAG:Ce,Mg ceramics.

Author

Hu, ChEN, Liu, Shuping, Fasoli, Mauro, Vedda, Anna, Nikl, Martin, FENg, Xiqi, and Pan, Yubai

Subjects
ELECTRON traps, ELECTRON paramagnetic resonance, DENSITY functional theory, SCINTILLATION spectrometry, ELECTRON capture
Abstract

Electron traps are known to a have great influence on the carriers transport process in Ce based scintillators. On the other hand, the role of hole traps in the scintillation process has been less considered. By means of electron spin resonance (ESR), we detected hole traps in highly Ce-doped LuAG:Ce,Mg ceramics in the form of σ-type O- centers. The g -tensor components turn out to be g = 2.0103, and g|| = 2.0023, revealing the axial symmetry of these defects. Mg-perturbed variants of O- centers are proposed to exist in LuAG:Ce,Mg. Their occurrence is related to an elongated Mg-O bond as evidenced by DFT calculations. Finally, the multiple role of O- centers in the scintillation process is discussed. [ABSTRACT FROM AUTHOR]

Published
2015
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232. SiO 2 -based scintillating fibers for x-ray detectors

Author

Chiodini, Norberto, primary, Brambilla, Gilberto, additional, Vedda, Anna, additional, Di Martino, Daniela, additional, Fasoli, Mauro, additional, Lauria, Alessandro, additional, Redaelli, Marco, additional, and Rosetta, Emanuela, additional

Published
2004
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237. Nanophosphor GdOBr:Ce via combustion synthesis: luminescence results.

Author

Blair, Michael W., Fasoli, Mauro, Tornga, Stephanie C., Vedda, Anna, Smith, Nickolaus A., Bennett, Bryan L., Hehlen, Markus P., and Muenchausen, Ross E.

Abstract

We used combustion synthesis to produce phase pure GdOBr:Ce with varying Ce concentration. Several combinations of NH4Br and fuel concentration were tested before phase pure GdOBr:Ce was produced by using a 50% excess of NH4Br and a 50% lean concentration of fuel. In addition to the expected emissions from Ce and Gd, we also detected emissions from Eu3+ and Tb3+. Further research indicated that these extra rare earth emissions were due to impurities in the Gd2O3 starting material. While not the desired effect, we were able to monitor both Eu and Ce intensities as a function of Ce concentration in GdOBr. The Ce emission is seen to reach a maximum between 0.1 and 0.5 mol%. At higher Ce content, the Ce luminescence is quenched because of the concentration quenching effect and the higher concentration of O-H and N-H groups as revealed by IR spectra. Eu emission progressively decreases as Ce content increases from a combination of competition with Ce for charge capture in the RL process and the effect of OH and NH groups. As Ce concentration increases the RL intensity ratio of the bands of the Ce doublet changes even though the energy difference between the two bands (0.24 ± 0.1 eV) is compatible with the spin-orbit splitting of the ground level of Ce3+ (0.25 eV). Fitting results indicate that this relative change is not due to changes in self-absorption, and the effect may be due to changes in local symmetry of the Ce ion. (© 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [ABSTRACT FROM AUTHOR]

Published
2013
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238. Optical and Structural Properties of Pb and Ce Doped SrHfO3 Powders.

Author

Mihokova, Eva, Moretti, Federico, Chiodini, Norberto, Lauria, Alessandro, Fasoli, Mauro, Vedda, Anna, Nale, Angelo, Nikl, Martin, and Boháček, Pavel

Subjects
LEAD, CERIUM, SCINTILLATORS, HAFNIUM compounds, THERMOLUMINESCENCE
Abstract

We bring into consideration a novel, potentially promising scintillating material, Pb-doped SrHfO3. The structural and optical properties of a series of Pb-doped SrHfO3 powders prepared by acetate and citrate combustion are investigated and compared to those of undoped and Ce-doped powders with the same composition. Room temperature radioluminescence studies as a function of sintering temperature show that samples sintered up to the highest final temperature (1150 °C) display the highest light output. Moreover, Pb-doped SrHfO3 shows a higher radioluminescence efficiency with respect to Ce-doped SrHfO3, which in turn features a very fast photoluminescence decay time of 15 ns. The presence of point defects and their role in carrier trapping are studied by thermally stimulated luminescence as well as by radioluminescence as a function of temperature. [ABSTRACT FROM AUTHOR]

Published
2010
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239. Shallow Traps in YAlO3 : Ce Single Crystal Perovskites.

Author

Fasoli, Mauro, Fontana, Ilaria, Moretti, Federico, Vedda, Anna, Niki, Martin, Mihokova, Eva, Zorenko, Yuriy V., and Gorbenko, Vitalyi I.

Subjects
*PEROVSKITE, *RADIATION, *DOPED semiconductors, *LUMINESCENCE, *X-rays, *IRRADIATION
Abstract

The aim of this work is to investigate the influence of shallow traps on scintillating properties of YAlO3 : Ce. Wave- length-resolved thermally stimulated luminescence measurements following X-ray irradiation at 10 K have been performed on both undoped and Ce-doped crystals. Different and composite glow curves and emission spectra were obtained. Following glow peaks analysis of YAlO3 : Ce, their room temperature decay time was evaluated to be of the order of 10-4 s. The presence of an athermal tunneling recombination process between traps and Ce3+ ions below 100 K has been evidenced by phosphorescence decays. [ABSTRACT FROM AUTHOR]

Published
2008
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243. Study of SiO2 Modifications Induced by Oxygen Plasmas and Their Effect on Wet Processes

Author

Votta, Annamaria, Bellandi, Enrico, Alessandri, Mauro, Vedda, Anna, Ferretti, Anna, Fasoli, Mauro, and Moretti, Federico

Abstract

Oxygen plasmas, commonly used in typical C-MOS process flow, cause silicon oxide structure to be significantly modified: as a consequence wet processes, that are sensitive to oxide defectivity, need to be retargeted. In this paper structure modifications, induced in boron implanted SiO2 by RF and TCP plasma have been studied by thermally stimulated luminescence, charging measurements and Electron Paramagnetic Resonance (EPR). Different kind and quantity of point defects have been identified by thermally stimulated luminescence technique as a function of plasma generator. These results match with EPR analysis, charging measurements and HF etches rate profile.

Published
2007

244. The Bright X‐Ray Stimulated Luminescence of HfO2 Nanocrystals Activated by Ti Ions.

Author

Villa, Irene, Moretti, Federico, Fasoli, Mauro, Rossi, Antonella, Hattendorf, Bodo, Dujardin, Christophe, Niederberger, Markus, Vedda, Anna, and Lauria, Alessandro

Subjects
CHARGE carrier capture, SCINTILLATORS, X-rays, LUMINESCENCE, X-ray photoelectron spectroscopy, IONIZING radiation, OPTICALLY stimulated luminescence, NANOCRYSTALS
Abstract

The recent trends in scintillator technologies stimulate research efforts toward the development of novel materials morphologies, such as nanoparticles, able to efficiently convert ionizing radiations into light. For example, scintillating nanoparticles attract great interest in medical oncological therapies. In this work, the structural and morphological properties of HfO2:Ti nanoparticles with Ti concentrations from 0.03 to 10 mol% and subjected to calcination up to 1000 °C are thoroughly characterized; moreover, X‐ray photoelectron spectroscopy reveals the incorporation of Ti in both Ti (III) and Ti (IV) chemical states in as prepared samples, while the exclusive presence of Ti(IV) is unambiguously identified in calcined nanoparticles. The optical emission under X‐ray excitation evidences an intense Ti (IV)‐related luminescence at 2.5 eV in high temperature calcined samples with a few microseconds scintillation lifetime, and efficiency comparable to that of Bi4Ge3O12 reference scintillator. Finally, the competitive role of defects in charge carriers capture is demonstrated by the monotonic increase of the 2.5 eV band during prolonged X‐ray irradiation, more evident for nanoparticles with titanium concentration below 1 mol%. HfO2:Ti may also find application in X‐ray triggered oncological therapies by using the Ti (IV)‐related bright radioluminescence to excite photosensitizer molecules for singlet oxygen generation. [ABSTRACT FROM AUTHOR]

Published
2020
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245. Evidence of Optically Stimulated Luminescence in Lu3Al5O12:Ce.

Author

Gallo, Salvatore, Veronese, Ivan, Vedda, Anna, and Fasoli, Mauro

Subjects
OPTICALLY stimulated luminescence, LUTETIUM compounds, SCINTILLATORS, LIGHT sources, ELECTRON traps, LUMINESCENCE, X-ray imaging
Abstract

Lutetium aluminum garnet, commonly known as LuAG, is a versatile material finding numerous optical applications, and whose scintillation properties have been widely investigated. In this study, experimental evidences of optically stimulated luminescence (OSL) phenomena occurring in LuAG:Ce crystals are shown. After demonstrating the possibility to optically bleach an electron trap responsible for a thermally stimulated luminescence (TSL) peak at 280 °C (heating rate 1.7 °C s−1) using red light, a direct measurement of the OSL decay curve and of the resulting characteristic Ce3+ 5d‐4f emission spectrum is carried out. The assessment of the bleaching spectrum of the TSL peak at 280 °C reveals that light with wavelength in the 600–650 nm interval is the most efficient in depleting the TSL peak, making He‐Ne lasers suitable sources of optical stimulation. The finding of OSL features in LuAG:Ce paves the way to new application perspectives. In particular, the achievement of a good balance between scintillation and energy storage properties of LuAG.Ce can drive a constructive integration between X‐rays imaging approaches based on photo‐stimulable phosphors and those exploiting scintillating materials. [ABSTRACT FROM AUTHOR]

Published
2019
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247. Scintillation characteristics of Lu3Al5O12:Ce optical ceramics.

Author

Nikl, Martin, Mares, Jiri A., Solovieva, Natasha, Li, Hui-Li, Liu, Xue-Jian, Huang, Li-Ping, Fontana, Ilaria, Fasoli, Mauro, Vedda, Anna, and D’Ambrosio, Carmelo

Subjects
*OPTICS, *CERAMICS, *LUMINESCENCE, *CRYSTALS, *REFRACTIVE index, *LUTETIUM
Abstract

Optical absorption, luminescence, and scintillation characteristics of Lu3Al5O12:Ce optical ceramics were measured and compared with an analogous high quality single crystal. Optical absorption of the former shows an additional light scattering loss due to nanovoids and/or refraction index inhomogeneities. Even though radioluminescence intensity of the optical ceramics prepared by a coprecipitation route exceeds that of single crystal, its scintillation light yield is lower due to the charge carrier retrapping in the process of energy transfer towards the Ce3+ emission centers. Retrapping processes are evidenced by thermoluminescence measurements below room temperature. Lu3Al5O12:Ce optical ceramics does not show the presence of the LuAl antisite defects which decreases the scintillation figure of merit in single crystals grown from the melt [M. Nikl, Phys. Status Solidi A 202, 201 (2005)]. Furthermore, using the ceramic technology, one can achieve both the homogeneous doping and higher Ce concentration. Similar to Y3Al5O12:Ce, the optical ceramics may therefore become competitive to the Lu3Al5O12:Ce single crystals, if trapping phenomena at other defects can be further reduced. [ABSTRACT FROM AUTHOR]

Published
2007
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248. Radio- and photoluminescence properties of Ce/Tb co-doped glasses with huntite-like composition.

Author

Lorenzi, Roberto, Golubev, Nikita V., Ziaytdinova, Mariyam Z., Jarý, Vítězslav, Babin, Vladimir, Malashkevich, Georgii E., Paleari, Alberto, Sigaev, Vladimir N., Fasoli, Mauro, and Nikl, Martin

Subjects
*CERIUM compounds, *OPTICAL properties of metals, *PHOTOLUMINESCENCE, *RARE earth ions, *CRYSTAL structure, *ENERGY transfer
Abstract

Optical properties of yttria-aluminoborate (YAB) glasses with general composition 10(Ce x Tb y Y (1-x-y) )-30Al 2 O 3 -60B 2 O 3 are investigated and compared with data available on YAB crystals with huntite-like structure. Ce doped samples show optical features ascribable to preferential location of rare earth ions in sites with specific geometry similar to that observed in crystalline structures. Samples prepared with Tb ions as emission activator and Ce ions as sensitizer have been studied within the framework of non-radiative energy transfer. The resulting Förster radius is of 4.6 ± 0.5 Å comparable with that observed in Ce/Tb co-doped YAl 3 (BO 3 ) 4 crystals. The investigated materials possess radio- and photoluminescence emission efficiencies and performances comparable to that of crystalline counterparts with the advantage of having easiness of preparation and workability typical of glassy systems. [ABSTRACT FROM AUTHOR]

Published
2018
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249. How reproducible are kinetic parameter constraints of quartz luminescence? An interlaboratory comparison for the 110 °C TL peak.

Author

Schmidt, Christoph, Friedrich, Johannes, Adamiec, Grzegorz, Chruścińska, Alicja, Fasoli, Mauro, Kreutzer, Sebastian, Martini, Marco, Panzeri, Laura, Polymeris, Georgios S., Przegiętka, Krzysztof, Valla, Pierre G., King, Georgina E., and Sanderson, David C.W.

Subjects
*LUMINESCENCE, *LIGHT sources, *PHOTON emission, *ACTIVATION energy, *CHEMICAL kinetics
Abstract

Knowledge of the kinetic parameters E (thermal activation energy) and s (frequency factor) of charge-trapping defects in the quartz crystal lattice is of paramount importance to assessing the thermal stability of associated luminescence signals used for dosimetry and dating. Since methods proposed for constraining thermoluminescence (TL) kinetics usually make use of the signal response to thermal treatments, accurate temperature control is required to obtain valid E and s values. In an attempt to check the extent to which consistent kinetic parameters could be obtained using routine luminescence measurement equipment, we have investigated three methods (isothermal decay, initial rise and the Hoogenstraaten method) in an inter-comparison study involving eight laboratories using Risø and Freiberg Instruments systems. The target signal was the so-called 110 °C TL peak of a sample of Oligocene coastal dune quartz sand from the Fontainebleau sand formation (France). TL glow curves recorded with heating rates in the range 0.02–5 K s −1 showed peak positions varying up to 60 °C between systems at the highest heating rates, attributed to temperature calibration errors and/or thermal lag. Kinetic parameters derived from the complete data set show a large spread, covering the ranges ∼0.5–1.2 eV and 10 6 –10 17 s −1 for E and s . In most cases, interlaboratory variations exceeded those of replicate measurements within individual laboratories. Signal lifetimes at 20 °C derived from the isothermal decay (∼59 min) and initial rise methods (at low heating rates; ∼60–80 min) most closely match the value directly measured at 20 °C from within two luminescence readers (∼70 min). Finally, we discuss the consequences of these findings for dosimetry and dating using luminescence signals and possible ways to reduce systematic errors in laboratory measurements of kinetic parameters. [ABSTRACT FROM AUTHOR]

Published
2018
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250. Incorporation of Ce3+ in crystalline Gd-silicate nanoclusters formed in silica

Author

Moretti, Federico, Vedda, Anna, Chiodini, Norberto, Fasoli, Mauro, Lauria, Alessandro, Jary, Vitezslav, Kucerkova, Romana, Mihokova, Eva, Nale, Angeloclaudio, and Nikl, Martin

Subjects
*RARE earth ions, *SILICATES, *MICROCLUSTERS, *CRYSTAL optics, *MOLECULAR structure, *GLASS-ceramics, *TRANSMISSION electron microscopy, *PHOTOCHEMISTRY
Abstract

Abstract: Structural and optical properties of sol–gel silica based glassceramics doped with 0.1mol% Ce and codoped with Gd at high concentrations, from 5mol% up to 40mol%, are investigated and compared to those of analogous samples doped only with Ce. Raman scattering, transmission electron microscopy, and x-ray diffraction reveal the formation of Gd apatite-like silicate (Gd4.67O(SiO4)3) and of Gd pyrosilicate (Gd2Si2O7) nanophases whose morphology and crystallinity depend on the Gd concentration and thermal treatments. Optical absorption measurements demonstrate the role of the densification atmosphere in modifying the charge state of Ce ions. The incorporation of Ce3+ ions in the nanophases is put in evidence by photo- and radio-luminescence results. [Copyright &y& Elsevier]

Published
2012
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