Your search keyword '"Brai M"' showing total 30 results

1. Preliminary 1H NMR study on archaeological waterlogged wood

Author

Paola Fantazzini, Patrizia Perzia, Filippa Morreale, Maria Brai, Antonella Maccotta, Ines D. Donato, Carla Garavaglia, BRAI, M, DONATO, D, FANTAZZINI, P, GARAVAGLIA, C, MACCOTTA, A, MORREALE, F, PERZIA, P, MACCOTTA A., FANTAZZINI P., GARAVAGLIA C., DONATO I., PERZIA P., BRAI M., and MORREALE F.

Subjects

Nuclear magnetic logging, Magnetic Resonance Spectroscopy, Ecology, Chemistry, technology, industry, and agriculture, Water, Characterisation of pore space in soil, Magnetic Resonance Imaging, Wood, Analytical Chemistry, Nuclear magnetic resonance, Mining engineering, Archaeology, T2 distribution, Underwater, Porosity, Confined water, General Environmental Science

Abstract

Magnetic Resonance Relaxation (MRR) and Magnetic Resonance Imaging (MRI) are powerful tools to obtain detailed information on the pore space structure that one is unlikely to obtain in other ways. These techniques are particularly suitable for Cultural Heritage materials, because they use water 1H nuclei as a probe. Interaction with water is one of the main causes of deterioration of materials. Porous structure in wood, for example, favours the penetration of water, which can carry polluting substances and promote mould growth. A particular case is waterlogged wood from underwater discoveries and moist sites; in fact, these finds are very fragile because of chemical, physical and biological decay from the long contact with the water. When wood artefacts are brought to the surface and directly dried in air, there is the collapse of the cellular structures, and wood loses its original form and dimensions and cannot be used for study and museum exhibits. In this work we have undertaken the study of some wood finds coming from Ercolano's harbour by MRR and MRI under different conditions, and we have obtained a characterization of pore space in wood and images of the spatial distribution of the confined water in the wood.

Published

2006

2. Dosimetry for electron Intra-Operative RadioTherapy: Comparison of output factors obtained through alanine/EPR pellets, ionization chamber and Monte Carlo-GEANT4 simulations for IORT mobile dedicate accelerator

Author

Maurizio Marrale a, b, Anna Longo a, Giorgio Russo c, Carlo Casarino c, Giuliana Candiano c, Salvatore Gallo a, d, Antonio Carlino e, a, Maria Brai a, Marrale, M, Longo, A, Russo, G, Casarino, C, Candiano, G, Gallo, S, Carlino, A, and Brai, M

Subjects

Nuclear and High Energy Physics, Dosimeter, Physics::Instrumentation and Detectors, Chemistry, IORT, Settore FIS/01 - Fisica Sperimentale, Physics::Medical Physics, Monte Carlo method, Detector, Geant4, Dose profile, Electron, alanine dosimetry, Monte Carlo Simulation, Geant4, Alanine dosimetry, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Linear particle accelerator, Monte Carlo simulations, Computational physics, Nuclear magnetic resonance, Ionization chamber, Dosimetry, Settore MED/36 - Diagnostica Per Immagini E Radioterapia, Instrumentation

Abstract

In this work a comparison between the response of alanine and Markus ionization chamber was carried out for measurements of the output factors (OF) of electron beams produced by a linear accelerator used for Intra-Operative Radiation Therapy (IORT). Output factors (OF) for conventional high-energy electron beams are normally measured using ionization chamber according to international dosimetry protocols. However, the electron beams used in IORT have characteristics of dose per pulse, energy spectrum and angular distribution quite different from beams usually used in external radiotherapy, so the direct application of international dosimetry protocols may introduce additional uncertainties in dosimetric determinations. The high dose per pulse could lead to an inaccuracy in dose measurements with ionization chamber, due to overestimation of k s recombination factor. Furthermore, the electron fields obtained with IORT-dedicated applicators have a wider energy spectrum and a wider angular distribution than the conventional fields, due to the presence of electrons scattered by the applicator’s wall. For this reason, a dosimetry system should be characterized by a minimum dependence from the beam energy and from angle of incidence of electrons. This become particularly critical for small and bevelled applicators. All of these reasons lead to investigate the use of detectors different from the ionization chamber for measuring the OFs. Furthermore, the complete characterization of the radiation field could be accomplished also by the use of Monte Carlo simulations which allows to obtain detailed information on dose distributions. In this work we compare the output factors obtained by means of alanine dosimeters and Markus ionization chamber. The comparison is completed by the Monte Carlo calculations of OFs determined through the use of the Geant4 application ” iort _ therapy ” . The results are characterized by a good agreement of response of alanine pellets and Markus ionization chamber and Monte Carlo results (within about 3%) for both flat and bevelled applicators.

Published

2015

3. Preliminary application of thermoluminescence and single aliquot regeneration method for dose reconstruction in soda lime glass

Author

Maria Cristina D'Oca, Maria Brai, Antonio Bartolotta, Maurizio Marrale, Anna Longo, Marrale, M., Longo, A., Bartolotta, A., D'Oca, M., and Brai, M.

Subjects

Electron beam, Soda-lime glass, Nuclear and High Energy Physics, Materials science, Thermoluminescence, Calibration curve, Radiochemistry, Mineralogy, Proton beam, chemistry.chemical_compound, Soda lime, chemistry, Soda lime watch glasse, Cathode ray, Photon beam, Sample preparation, Irradiation, Single aliquot regeneration method, Watch glass, Instrumentation

Abstract

The research described in this paper shows that the use of the single aliquot regeneration (SAR) method for thermoluminescence (TL) measurements applied to soda lime glasses allows to carry out a retrospective dose evaluation. We have followed a fast and efficient sample preparation procedure which permits measurements without powdering and sieving processes. We have analyzed the TL signal of commercial soda lime watch glass irradiated with 6 Mega Volts (MV) LINAC photons, 10 MeV LINAC electrons and 62 MeV protons. After the initial exposure and following TL reading, the samples are successively irradiated with increasing doses of photons. Therefore, for each sample its calibration curve is constructed and the initial dose is reconstructed. We have found that for samples initially irradiated with photons the SAR procedure allows to reconstruct dose of 1 Gy with an accuracy of 20%. The application of the SAR procedure has highlighted the ability of measuring even low photon doses (e.g. ≈0.5 Gy) with appreciable accuracy. The application of the SAR method for samples initially exposed to electrons and protons provides values of reconstructed doses less accurate. The effect of the fading on the dose reconstruction with this SAR procedure is also discussed. © 2012 Elsevier B.V. All rights reserved.

Published

2013

4. ESR response of watch glasses to proton beams

Author

Maurizio Marrale, Anna Longo, Luigi Tranchina, S. Basile, Maria Brai, Longo, A, Basile, S, Brai, M, Marrale, M, and Tranchina, L

Subjects

Nuclear and High Energy Physics, Range (particle radiation), Proton, Chemistry, Fluorescence spectrometry, Analytical chemistry, Resonance, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), law.invention, Proton beam, law, Irradiation, Electron paramagnetic resonance, Spectroscopy, Instrumentation, Microwave, ESR, Watch glasse

Abstract

In this paper we have analyzed the electron spin resonance (ESR) signal of watch glasses irradiated with %60 MeV proton beams in the dose range between 1 and 105 Gy. The composition of samples expressed in oxides weight percentages has been obtained carrying out X-ray fluorescence spectrometry (XRF) mea- surements. The ESR signal has been studied in terms of its dependence on microwave power and modulation field in order to choose the optimal recording parameters. The dependence of the radioinduced signal on the exposure dose has been investigated. A numerical procedure aimed at improving the sensitivity in the low dose range has been developed.

Published

2010

5. Monte Carlo simulation of the response of ESR dosimeters added with gadolinium exposed to thermal, epithermal and fast neutrons

Author

Maria Brai, S. Basile, Maurizio Marrale, Anna Longo, Marrale, M, Basile, S, Brai, M, and Longo, A

Subjects

Astrophysics::High Energy Astrophysical Phenomena, Gadolinium, Physics::Medical Physics, Monte Carlo method, chemistry.chemical_element, Spectral line, Fast Neutrons, Humans, Dosimetry, Neutron, Radiometry, Nuclear Experiment, Tartrates, Alanine, Radiation, Dosimeter, Phantoms, Imaging, Radiotherapy Planning, Computer-Assisted, ESR dosimetry, gadolinium, neutrons, Radiochemistry, Electron Spin Resonance Spectroscopy, Neutron Capture Therapy, Neutron temperature, Neutron capture, chemistry, Atomic physics, Monte Carlo Method

Abstract

Monte Carlo numerical calculations of the response of alanine and ammonium tartrate ESR (electron spin resonance) dosimeters exposed to neutron fields with different energy spectra are reported. Results have been obtained for various gadolinium concentrations inside the dosimeters. Furthermore, in order to simulate the in-phantom response we have carried out calculations by varying the depth of the dosimeter. We have found that a large enhancement is obtained for thermal neutrons, because of the very high capture cross section of gadolinium to thermal neutrons. A good enhancement was obtained for epithermal neutrons, whereas the sensitivity improvement in the case of fast neutron irradiation is poor. Furthermore, the simulations carried out by varying the depth suggests that an appreciable sensitivity to thermal and epithermal neutrons could be observed for in-phantom measurements in the 2–3 cm depth range. These results can provide useful insight for future experiments with epithermal neutron beams (such as those used in neutron capture therapy) and for future applications in neutron capture therapy dosimetry.

Published

2009

6. Neutron–gamma mixed field measurements by means of MCP–TLD600 dosimeter pair

Author

Maurizio Marrale, Maria Brai, Alessandro Triolo, TRIOLO A, MARRALE M, and BRAI M

Subjects

Nuclear and High Energy Physics, Dosimeter, Field (physics), Chemistry, ThermoluminescenceTLD600TLD700MCPThermal neutronsNeutron dosimetry, Radiochemistry, Analytical chemistry, Fluence, Thermoluminescence, Neutron temperature, Calibration, Dosimetry, Neutron, Instrumentation

Abstract

In this paper, we compared the TL response of three types of thermoluminescence dosimeters, TLD600 (6LiF:Mg,Ti), TLD700 (7LiF:Mg,Ti) and MCP (LiF:Mg,Cu,P) after exposure to a n–γ mixed field in the fluence range of radiotherapeutic applications. Since a dosimeter pair is required to discriminate the two components of the mixed field, we analyzed the ability of each dosimeter pair to provide the fluence value in the mixed field. At this aim we performed a 60Co–γ calibration and a neutron calibration for all three dosimeter types. Finally, a blind test was performed in order to analyze the accuracy of each dosimeter pair and we found that in this mixed field the fluence value obtained through the TLD600–MCP pair is as accurate as the value obtained through the most common TLD600–TLD700 pair.

Published

2007

7. Improvement of the LET sensitivity in ESR dosimetry for -photons and thermal neutrons through gadolinium addition

Author

Maurizio Marrale, Alessandro Triolo, G. Gennaro, Antonio Bartolotta, Maria Brai, MARRALE M, BRAI M, GENNARO G, TRIOLO A, and BARTOLOTTA A

Subjects

Physics, Radiation, Dosimeter, ammonium tartrate, Gadolinium, Physics::Medical Physics, Radiochemistry, chemistry.chemical_element, Linear energy transfer, Neutron temperature, Gd2O3-ammonium tartrate, chemistry.chemical_compound, Gd2O3-alanine, chemistry, LET, Dosimetry, Condensed Matter::Strongly Correlated Electrons, Ammonium, Neutron, alanine, Instrumentation, ESR

Abstract

We investigated the ESR response of new materials, alanine and ammonium tartrate to which gadolinium was added. The addition of gadolinium enhances sensitivity for Co 60 γ -photons because of its high atomic number ( Z = 64 ) and an enhancement of sensitivity for thermal neutrons because of its high thermal neutron cross section and high linear energy transfer (LET) secondary particles produced after the reaction with neutrons. In particular, in this paper we analyzed the microwave power saturation properties of dosimeters of alanine and ammonium tartrate with or without gadolinium exposed to different LET beams. The power saturation trends of dosimeters exposed to photons and to thermal neutrons are different. For ammonium tartrate dosimeters the gadolinium addition intensifies significantly these differences and therefore, it improves the ammonium tartrate's ability to discriminate the radiation LET .

Published

2007

8. Alanine blends for ESR measurements of thermal neutron fluence in a mixed radiation field

Author

Maurizio Marrale, Maria Cristina D'Oca, G. Gennaro, G. Rosi, Antonio Bartolotta, Maria Brai, Alessandro Triolo, M MARRALE, BRAI M, G GENNARO, A TRIOLO, A BARTOLOTTA, MC DOCA, and G ROSI

Subjects

inorganic chemicals, Materials science, Photon, Gadolinium, Analytical chemistry, chemistry.chemical_element, Radiation Dosage, Sensitivity and Specificity, Fluence, law.invention, Radiation Protection, Radiation Monitoring, law, Materials Testing, Thermal, Dosimetry, Radiology, Nuclear Medicine and imaging, Neutron, ESR Dosimetry, BNCT, Electron paramagnetic resonance, Neutrons, Alanine, Radiation, Radiological and Ultrasound Technology, business.industry, Electron Spin Resonance Spectroscopy, technology, industry, and agriculture, Public Health, Environmental and Occupational Health, Reproducibility of Results, Equipment Design, General Medicine, Neutron temperature, Equipment Failure Analysis, chemistry, Calibration, biological sciences, lipids (amino acids, peptides, and proteins), Nuclear medicine, business

Abstract

In this paper, the results of a study on the electron spin resonance (ESR) dosimetry to measure thermal neutron fluence in a mixed radiation field (neutron and photons) are presented. The ESR responses of alanine dosemeters with different additives are compared. In particular, the (10)B-acid boric and the Gd-oxide were chosen to enhance the sensitivity of alanine dosemeters to thermal neutrons. Irradiations were carried out inside the thermal column of the TAPIRO reactor of the ENEA center, Casaccia Rome. The main results are a greater neutron sensitivity and a smaller lowest detectable fluence for the dosemeters with gadolinium than for dosemeters of alanine with (10)B, which is well known to be much more sensitive to thermal neutrons than simple alanine.

Published

2007

9. Effects of gamma-irradiation on trehalose–hydroxyethylcellulose microspheres loaded with vancomycin

Author

E. Calderaro, Maria Brai, Giulia Giandalia, V. De Caro, Libero Italo Giannola, Monica Campisi, Antonio Bartolotta, Maria Cristina D'Oca, BARTOLOTTA, A, D'OCA, MC, CAMPISI, M, DE CARO, V, GIANDALIA, G, GIANNOLA, LI, BRAI, M, and CALDERARO, E

Subjects

Ionizing radiation, Microsphere, Drug, media_common.quotation_subject, Drug delivery system, Gamma-irradiation, Pharmaceutical Science, law.invention, chemistry.chemical_compound, Vancomycin, law, medicine, Irradiation, Cellulose, Electron paramagnetic resonance, ESR, media_common, Radiochemistry, Trehalose, Quality control, General Medicine, Sterilization (microbiology), Drug sterilization, Microspheres, chemistry, Gamma Rays, Drug delivery, Biotechnology, medicine.drug

Abstract

Ionizing radiation can be used as a drug sterilization technique, provided that the drug itself is not modified and that no toxic products are produced; moreover, if the irradiated product is a drug delivery system, the drug release characteristics must not be significantly altered by radiation. The aim of this work was to study the effects of sterilization by ionizing radiation on hydroxyethylcellulose/trehalose spherical micromatrices, containing the antibiotic vancomycin. Our experimental results showed that gamma-rays did not alter the chromophore groups of vancomycin (UV measurements), and did not modify the kinetic behavior of drug release from microspheres. Moreover, no significant changes in the shape and in the size distribution of microspheres were found after irradiation. The electron spin resonance (ESR) spectroscopy was proven to be a valid identification method of the executed radiation treatment, even after 5 years. The experimental results showed that the therapeutic application of the pharmacological system investigated was not compromised by irradiation, and that ESR spectroscopy can be used to distinguish irradiated from non-irradiated products.

Published

2005

10. Combined TL and 10B-alanine ESR dosimetry for BNCT

Author

R. Borio, Antonio Bartolotta, Maria Brai, S. Manera, N. Forini, B. Lo Giudice, Maria Cristina D'Oca, P. Salvadori, BARTOLOTTA A, D'OCA MC, LO GIUDICE B, BRAI M, BORIO R, FORINI N, SALVADORI P, and MANERA S

Subjects

inorganic chemicals, Materials science, Beryllium oxide, chemistry.chemical_element, Boron Neutron Capture Therapy, Radiation, Risk Assessment, Sensitivity and Specificity, Thermoluminescence, law.invention, dosimeters, electron paramagnetic resonance,spin resonance, chemistry.chemical_compound, Radiation Protection, Isotopes, law, Humans, Dosimetry, Radiology, Nuclear Medicine and imaging, Boron, Electron paramagnetic resonance, Neutrons, Radiological and Ultrasound Technology, business.industry, Radiotherapy Planning, Computer-Assisted, Radiochemistry, Electron Spin Resonance Spectroscopy, Public Health, Environmental and Occupational Health, Reproducibility of Results, Radiotherapy Dosage, General Medicine, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Neutron temperature, Systems Integration, Neutron capture, chemistry, Gamma Rays, Body Burden, Thermoluminescent Dosimetry, Nuclear medicine, business, Relative Biological Effectiveness

Abstract

The dosimetric technique described in this paper is based on electron spin resonance (ESR) detectors using an alanine-boric compound acid enriched with 1 0 B, and beryllium oxide thermoluminescent (TL) detectors; with this combined dosimetry, it is possible to discriminate the doses due to thermal neutrons and gamma radiation in a mixed field. Irradiations were carried out inside the thermal column of a TRIGA MARK II water-pool-type research nuclear reactor, also used for Boron Neutron Capture therapy (BNCT) applications, with thermal neutron fluence from 10 9 to 10 1 4 n t h cm - 2 . The ESR dosemeters using the alanine-boron compound indicated ESR signals about 30-fold stronger than those using only alanine. Moreover, a negligible correction for the gamma contribution, measured with TL detectors, almost insensitive to thermal neutrons, was necessary. Therefore, a simultaneous analysis of our TL and ESR detectors allows discrimination between thermal neutron and gamma doses, as required in BNCT.

Published

2004

11. Chemistry, mineralogy and radioactivity inposidonia oceanicameadows from North-Western Sicily

Author

S. Hauser, Luigi Tranchina, Antonio Bartolotta, Salvatore Rizzo, Maria Brai, S. Bellia, S. Basile, TRANCHINA, L, BELLIA, S, BRAI, M, HAUSER, S, RIZZO, S, BARTOLOTTA, A, and BASILE, S

Subjects

Potamogetonaceae, Radionuclide, Ecology, biology, Chemistry, Posidonia oceanica, Mineralogy, Heavy metals, Sea sediment, biology.organism_classification, Mass spectrometry, law.invention, Heavy metal, law, General Earth and Planetary Sciences, Statistical analysis, Atomic absorption spectroscopy, Chemical composition, Ecology, Evolution, Behavior and Systematics, Radionuclides, General Environmental Science

Abstract

This paper presents measurements of major, minor, metal trace elements and radionuclides in sediments and in Posidonia oceanica samples from north-western Sicily (Italy). The mineralogical and chemical composition of sediments were determined by X-ray diffraction and X-ray fluorescence techniques, respectively. A flame atomic absorption spectrophotometry was used to measure concentrations of Cu, Zn, Cd and Pb in P. oceanica samples and in sediments. Specific activities of selected radionuclides have been determined by high-resolution gamma spectrometry. Standard statistical analysis was used to assess correlations between different elements and different sample types.

Published

2004

12. Neutron ESR dosimetry through ammonium tartrate with low Gd content

Author

Aldo Parlato, Elio Angelo Tomarchio, Luigi Tranchina, Maria Brai, Daniele Dondi, Anna Longo, Salvatore Panzeca, Maurizio Marrale, Armando Buttafava, Marrale, M, Brai, M, Longo, A, Panzeca, S, Tranchina, L, TOMARCHIO, E, Parlato, A, Buttafava, A, and Dondi D

Subjects

Materials science, Settore ING-IND/20 - Misure E Strumentazione Nucleari, Gadolinium, Monte Carlo method, Analytical chemistry, chemistry.chemical_element, Radiation, Radiation Dosage, law.invention, law, Dosimetry, Radiology, Nuclear Medicine and imaging, Neutron, Electron paramagnetic resonance, Radiometry, Tartrates, Neutrons, Radiological and Ultrasound Technology, ammonium tartrate, business.industry, Public Health, Environmental and Occupational Health, Electron Spin Resonance Spectroscopy, Resonance, General Medicine, ESR Dosimetry, neutron dosimetry, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), chemistry, Measuring instrument, Nuclear medicine, business, Monte Carlo Method

Abstract

This paper continues analyses on organic compounds for application in neutron dosimetry performed through electron spin resonance (ESR). Here, the authors present the results obtained by ESR measurements of a blend of ammonium tartrate dosemeters and gadolinium oxide (5 % by weight). The choice of low amount of Gd is due to the need of improving neutron sensitivity while not significantly influencing tissue equivalence. A study of the effect of gadolinium presence on tissue equivalence was carried out. The experiments show that the neutron sensitivity is enhanced by more than an order of magnitude even with this small additive content. Monte Carlo simulations on the increment of energy release due to gadolinium presence were carried, and the results were in good agreement with the experimental data.

Published

2014

13. NMR relaxometry measurements of Fricke gel dosimeters exposed to neutrons

Author

Francesco D'Errico, Maurizio Marrale, Cesare Gagliardo, Luigi Tranchina, Anna Longo, Salvatore Gallo, Maria Brai, Elio Angelo Tomarchio, Marrale, M, Brai, M, Longo, A, Gallo, S, Tomarchio, E, Tranchina, L, Gagliardo, C, and D’Errico, F

Subjects

Nuclear magnetic resonance relaxometry, Relaxometry, Radiation, Dosimeter, Chemistry, Physics::Medical Physics, Relaxation (NMR), Fluence, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Neutron capture, Gel dosimeter, Nuclear magnetic resonance, Magnetic resonance imaging, Neutron flux, Dosimetry, Fricke method, Neutron, Neutron beam

Abstract

Fricke infused gel matrices offer several features making them suitable for dosimetric applications; among the set here are tissue equivalence, low cost and ease of preparation. Their nuclear magnetic resonance (NMR) relaxation properties can be used as a radiation detector for the dosimetry of beams used in cancer therapy. In recent years neutron capture therapy has been resumed for the treatment of various types of cancer and it requires three-dimensional mapping of the neutron fields. In this work, we investigated this particular application through NMR relaxometry and MR imaging of Fricke gels exposed to neutrons. We analyzed both the R1 and R2 relaxation rates, which relate to the longitudinal T1 and transversal T2 relaxation times. In particular, we found that the relaxation rate R2 does not depend on the neutron fluence, where as the relaxation rate R1 increases linearly with the fluence. The magnetic resonance imaging acquisitions showed that T1-weighted images allow the characterization of samples exposed to different neutron fluences.

Published

2014

14. EPR/ALANINE PELLETS WITH LOW Gd CONTENT FOR NEUTRON DOSIMETRY

Author

Maurizio Marrale, Elio Angelo Tomarchio, Alberto Zeffiro, Luigi Tranchina, A. Carlino, Aldo Parlato, Maria Brai, Daniele Dondi, Anna Longo, Armando Buttafava, Salvatore Panzeca, Marrale, M, Brai, M, Longo, A, Panzeca, S, Carlino, A, Tranchina, L, Tomarchio, E, Parlato, A, Buttafava, A, Dondi, D, and Zeffiro, A

Subjects

inorganic chemicals, Materials science, Gadolinium, Analytical chemistry, chemistry.chemical_element, Radiation Dosage, law.invention, Boric acid, chemistry.chemical_compound, Boric Acids, Isotopes, law, Radiology, Nuclear Medicine and imaging, Neutron, Irradiation, Boron, Electron paramagnetic resonance, Radiometry, Neutrons, Radiation, Alanine, Radiological and Ultrasound Technology, business.industry, Electron paramagnetic resonance (EPR), alanine pellet, gadolinium, Monte Carlo (MC) simulation, dosimetry, Doping, technology, industry, and agriculture, Public Health, Environmental and Occupational Health, Electron Spin Resonance Spectroscopy, General Medicine, Neutron temperature, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), chemistry, Nuclear medicine, business, Monte Carlo Method

Abstract

This paper reports on results obtained by electron paramagnetic resonance (EPR) measurements and Monte Carlo (MC) simulation on a blend of alanine added with low content of gadolinium oxide (5 % by weight) to improve the sensitivity to thermal neutron without excessively affecting tissue equivalence. The sensitivity is enhanced by this doping procedure of more an order of magnitude. The results are compared with those obtained with the addition of boric acid (50 % by weight) where boron is in its natural isotopic composition in order to produce low-cost EPR dosemeters. The gadolinium addition influences neutron sensitivity more than the boron addition. The presence of additives does not substantially change the fading of the EPR signal induced by neutrons. The MC simulations agree the experimental results in case of gadolinium addition.

Published

2013

15. In-soil radon anomalies as precursors of earthquakes: A case study in the SE slope of Mt. Etna in a period of quite stable weather conditions

Author

Maria Brai, F. Vizzini, Vizzini, F, and Brai, M

Subjects

Health, Toxicology and Mutagenesis, Population, chemistry.chemical_element, Magnitude (mathematics), Radon, Active fault, Fault (geology), Standard deviation, Earthquakes, Environmental Chemistry, Soil Pollutants, Radioactive, Relative humidity, education, Waste Management and Disposal, geography, education.field_of_study, geography.geographical_feature_category, radon, Etna, General Medicine, Geodynamics, Pollution, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), chemistry, Italy, Geology, Seismology

Abstract

In-soil radon concentrations as well as climatic parameters (temperature, atmospheric pressure and relative humidity) were collected in St. Venerina (Eastern Sicily - Italy) from March 19th to May 22nd 2009, close to an active fault system called Timpe Fault System (TFS), which is strictly linked to the geodynamics of Mt. Etna. During the monitoring period no drastic climatic variations were observed and, on the other hand, important seismic events were recorded close to the monitoring site. A seismic swarm composed of 5 earthquakes was observed in the Milo area on March 25th (M-max = 2.7) at just 5.1 km from the site, and on May 13th an earthquake of 3.6 magnitude was recorded in the territory of St. Venerina, at just 3.2 km from the site: the earthquake was felt by the population and reported by all local and regional media. The in-soil radon concentrations have shown anomalous increases possibly linked to the earthquakes recorded, but certainly not attributable to local meteorology. To verify this assumption the average radon concentration and the standard deviation (sigma) have been calculated and the regions of +/- 1.5 sigma and +/- 2 sigma deviation from the average concentration have been investigated. Moreover, to further minimise the contribution of the meteorological parameters on the in-soil radon fluctuations, a multiple regressions method has been used. To distinguish those earthquakes which could generate in-soil radon anomalies as precursors, the Dobrovolsky radius has been applied. The results obtained suggests that a clear correlation between earthquakes and in-soil radon increases exist, and that the detection of the in-soil radon anomalies becomes surely simpler in particular favourable conditions: weather stability, earthquakes within the Dobrovolsky radius and close to the monitoring area. Moreover, the absence of large variations of the climatic parameters, which could generate incoherent noise components to the radon signal, has made the radon fluctuations more evident and so more legible

Published

2012

16. Sensitivity of alanine dosimeters with gadolinium exposed to 6 MV photons at clinical doses

Author

Maurizio Marrale, Anna Longo, Maria Brai, Antonio Bartolotta, Maria Cristina D'Oca, M. Spanò, MARRALE, M, LONGO, A, SPANÒ, M, BARTOLOTTA, A, D'OCA, MC, and BRAI,M

Subjects

Photon, ESR dosimetry, Gadolinium, Monte Carlo method, Acceleration, Biophysics, chemistry.chemical_element, Linear particle accelerator, Radiology, Nuclear Medicine and imaging, Irradiation, Radiometry, Monte Carlo simulation, Alanine, Photons, Radiation, Dosimeter, Chemistry, X-Rays, Radiochemistry, Electron Spin Resonance Spectroscopy, Dose-Response Relationship, Radiation, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Alanine dosimeters gadolinium, Linear Models, Sensitivity (electronics), Monte Carlo Method

Abstract

In this study we analyzed the ESR signal of alanine dosimeters with gadolinium exposed to 6 MV linear accelerator photons. We observed that the addition of gadolinium brings about an improvement in the sensitivity to photons because of its high atomic number. The experimental data indicated that the addition of gadolinium increases the sensitivity of the alanine to 6 MV photons. This enhancement was better observed at high gadolinium concentrations for which the tissue equivalence is heavily reduced. However, information about the irradiation setup and of the radiation beam features allows one to correct for this difference. Monte Carlo simulations were carried out to obtain information on the expected effect of the addition of gadolinium on the dose absorbed by the alanine molecules inside the pellets. These results are compared with the experimental values, and the agreement is discussed.

Published

2011

17. Comparison of LIBS and micro-XRF measurements on bronze alloys for monitoring plasma effects

Author

Luigi Tranchina, T. Schillaci, R. Barraco, Maria Francesca Alberghina, Maria Brai, Alberghina, M, Barraco, RML, Brai, M, Schillaci, T, and Tranchina, L

Subjects

History, Plasma features, LIBS parameters, m-XRF, bronze alloys, quantitative analysis, Materials science, business.industry, Detector, chemistry.chemical_element, Laser, Collimated light, Computer Science Applications, Education, law.invention, Optics, chemistry, law, Elemental analysis, Laser-induced breakdown spectroscopy, business, Spectroscopy, Tin, Monochromator

Abstract

The laser-induced breakdown spectroscopy (LIBS) technique is often used as atomic spectroscopic technique for elemental analysis of materials. However, it presents some drawbacks that make an accurate quantitative analysis difficult. Since the plasma properties, such as spatial inhomogeneity and plume stoichiometry strongly depend on the experimental conditions, the measurements are less reproducible. In order to evaluate the measurement fluctuations, we propose to use the more established micro X-Ray fluorescence (μ-XRF) technique for validating LIBS data. In particular, the quantitative data, obtained by varying the laser fluence, the shot numbers and the temporal acquisition parameters, were compared with those obtained by μ-XRF on laboratory made samples of binary, ternary and quaternary bronze alloys. For LIBS measurements a mobile double pulse laser instrument equipped with an high resolution Echelle type monochromator coupled to an intensified CCD camera was used. μ-XRF analyses were performed with a portable instrument that uses a micro collimated X-Ray beam and it is equipped with an high resolution detector. The LIBS results show a strong dependence both on the instrumental set up and the chemical-physical properties of the sample. With our findings we could identify the most suitable parameters to be used in the investigation of the different bronze alloys. The possibility to carry out a quantitative analysis by using the LIBS technique was checked through the comparison with related μ-XRF data. In particular in this paper we identified a set of reliable LIBS parameters for the quantitative analysis of copper, tin and zinc. Further analyses will be necessary to reach this goal also for the minor constituents as lead.

Published

2011

18. Pulsed EPR analysis of tooth enamel samples exposed to UV and gamma-radiations

Author

Marina Brustolon, Anna Longo, Antonio Barbon, Maria Brai, Paola Fattibene, Maurizio Marrale, MARRALE, M, LONGO, A, BRAI, M, BARBON, A, BRUSTOLON, M, and FATTIBENE, P

Subjects

Radiation, Enamel paint, ESR dosimetry, Pulsed EPR, dosimetry, tooth enamel, Chemistry, Pulsed EPR, Analytical chemistry, ESR spectroscopy, Tooth enamel, Spectral line, law.invention, tooth enamel, medicine.anatomical_structure, Nuclear magnetic resonance, law, visual_art, visual_art.visual_art_medium, medicine, Continuous wave, Irradiation, Spectroscopy, Electron paramagnetic resonance, Instrumentation

Abstract

The electron paramagnetic resonance (EPR) spectroscopy is widely applied for retrospective dosimetric purposes by means of quantitative detection of radicals in tooth enamel and bone samples. In this work we report a study by cw and pulsed EPR on two samples of human tooth enamel respectively irradiated by UV (254 nm) and γ-exposed. The continuous wave (cw) EPR spectra have shown the usual presence in both samples of two types of CO 2 − radicals, with axial and orthorombic g tensors. We have obtained the electron spin echo detected EPR (ED-EPR) spectra at 80 K of the two samples, and we have shown that they are suitable to mark the difference between the effects produced by the different irradiations. At low temperature the contribution to the ED-EPR spectrum of the mobile radical with the axial g tensor is still present in the UV irradiated sample, but not in the γ-irradiated one, where its dynamics is too slow to average the g tensor. We have moreover studied the two-pulse electron spin echo decay on varying the microwave power, a well established method for measuring the Instantaneous Diffusion. We have found that the spectral diffusion parameter is almost the same for both radiation types, whereas the Instantaneous Diffusion is significantly larger for γ-exposed samples than for UV irradiated ones. This difference is due to a higher local microscopic concentration of free radicals for samples irradiated with γ photons.

Published

2011

19. Analysis of the spatial distribution of free radicals in ammonium tartrate by pulse EPR techniques

Author

Marina Brustolon, Antonio Barbon, Maria Brai, Maurizio Marrale, MARRALE, M, BRAI, M, BARBON, A, and BRUSTOLON M

Subjects

Free Radicals, Biophysics, Analytical chemistry, radical distribution, radiation dosimetry, ESR spectroscopy, Linear energy transfer, Electrons, Radiation, Tartrate, Radiation Dosage, law.invention, Diffusion, chemistry.chemical_compound, law, Ammonium Tartrate by Pulse EPR Techniques, Radiology, Nuclear Medicine and imaging, Cobalt Radioisotopes, Radiometry, Spectroscopy, Electron paramagnetic resonance, Tartrates, Neutrons, Pulsed EPR, Electron Spin Resonance Spectroscopy, Resonance, Neutron temperature, chemistry, Gamma Rays, Protons

Abstract

Using pulse electron paramagnetic resonance (EPR) on a series of l(+)-ammonium tartrate (AT) dosimeters exposed to radiations with different linear energy transfer (LET), we assessed the ability of pulse EPR spectroscopy to discriminate the quality of various radiation beams such as (60)Co gamma-ray photons, protons and thermal neutrons at various doses by analyzing the local radical distributions produced by the different beams. We performed two types of pulse EPR investigations: two-pulse electron spin echo decay obtained by varying the microwave power, and a double electron-electron resonance (DEER) study. Both methods provide information about the dipolar interactions among the free radicals and about their spatial distributions. The first method provided information on the instantaneous diffusion and hence the microscopic concentration of the radicals that is compared with the macroscopic one obtained by CW-EPR. The DEER spectra yielded the distributions of distances between pairs of radicals two to five crystal cells apart produced by the same radiation event, a result reported here for the first time. The inter-radical distributions given by the DEER results have been simulated by modeling the radical distributions according to the details of the matter-radiation interactions for the various beams. The results of both types of pulse experiments are strongly dependent on the radiation quality. This was also observed for samples giving indistinguishable CW-EPR spectral profiles. We conclude that the pulse EPR measurements can be valuable tools for distinguishing the LET of the radiation beams, an important parameter for radiobiological considerations.

Published

2009

20. A study of the human rod and cone electroretinogram a-wave component

Author

R. Barraco, D. Persano Adorno, L Bellomonte, Maria Brai, Barraco, RML, Persano Adorno, D, Bellomonte, L, and Brai, M

Subjects

Statistics and Probability, Congenital stationary night blindness, Retina, Achromatopsia, genetic structures, business.industry, Statistical and Nonlinear Physics, Retinal, Biology, Stimulus (physiology), medicine.disease, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), electroretinogram, a-wave, chemistry.chemical_compound, Electrophysiology, Functional integrity, Optics, medicine.anatomical_structure, chemistry, medicine, sense organs, Statistics, Probability and Uncertainty, business, Neuroscience, Visual phototransduction

Abstract

The study of the electrical response of the retina to a luminous stimulus is one of the main fields of research in ocular electrophysiology. The features of the first component (a-wave) of the retinal response reflect the functional integrity of the two populations of photoreceptors: rods and cones. We fit the a-wave for pathological subjects with functions that account for possible mechanisms governing the kinetics of the photoreceptors. The paper extends a previous analysis, carried out for normal subjects, in which both populations are active, to patients affected by two particular diseases that reduce the working populations to only one. The pathologies investigated are Achromatopsia, a cone disease, and Congenital Stationary Night Blindness, a rod problem. We present evidence that the analysis of a pathological a-wave can be employed to quantitatively measure either cone or rod activities and to test hypotheses about their responses. The results show that the photoreceptoral responses differ in the two cases and functions implying a different number of photocascade stages are necessary to achieve a correct modeling of the early phototransduction process. Numerical values of the parameters characterizing the best-fit functions are given and discussed.

Published

2009

21. Double Laser LIBS and micro-XRF spectroscopy applied to characterize materials coming from the Greek-Roman theater of Taormina

Author

R. Barraco, Maria Brai, T. Schillaci, Luigi Tranchina, Maria Francesca Alberghina, Alberghina, M, Barraco, RML, Brai, M, Schillaci, T, and Tranchina, L

Subjects

Chemistry, Calibration curve, business.industry, X-ray fluorescence, Laser, Collimated light, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), law.invention, Certified reference materials, Optics, law, Calibration, LIBS, micro-XRF, calcareous material, refractory material, cultural heritages, Laser-induced breakdown spectroscopy, Spectroscopy, business

Abstract

The laser-induced breakdown spectroscopy (LIBS) is an applied physical technique that has shown, in recent years, its great potential for rapid qualitative analysis of materials. The possibility to implement a portable instrument that perform LIBS analysis makes this technique particularly useful for in situ analysis in the field of cultural heritages. The aim of this work is to compare the results, obtained by LIBS measurements with X-Ray Fluorescence (XRF) ones, on calcareous and refractory materials coming from the Greek-Roman theater of Taormina. Calibration curves for LIBS and XRF were obtained by measuring certified reference materials and using them as standards. LIBS measurements were performed with a new mobile instrument Modi (Mobile Double pulse Instrument for LIBS Analysis) that use an innovative experimental set-up, based on the use of two suitably retarded laser pulses that greatly improves the potential of this technique for accurate quantitative analysis. XRF analyses were performed with a portable instrument ArtTAX that use a collimated X-Ray beam equipped with a fluxing system of helium gas on the detection path to the aim to detect the lighter elements with a good accuracy. LIBS results have shown that this technique is highly subjected to the sample chemical and physical characteristics.

Published

2009

22. THE EFFECT OF GADOLINIUM ON THE ESR RESPONSE OF ALANINE AND AMMONIUM TARTRATE EXPOSED TO THERMAL NEUTRONS

Author

Maria Brai, G. Gennaro, Maria Cristina D'Oca, Maurizio Marrale, Antonio Bartolotta, MARRALE, M, BRAI, M, GENNARO, G, BARTOLOTTA, A, and D'OCA, MC

Subjects

High atomic number, Hot Temperature, Gadolinium, Biophysics, chemistry.chemical_element, Radiation Dosage, Sensitivity and Specificity, Radiology, Nuclear Medicine and imaging, Ammonium tartrate, Radiometry, Tartrates, Alanine, Neutrons, Radiation, Dosimeter, Radiation field, Radiochemistry, Electron Spin Resonance Spectroscopy, Reproducibility of Results, Dose-Response Relationship, Radiation, Neutron temperature, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Neutron capture, chemistry, ESR, dosimetry, thermal neutrons, Nuclear chemistry

Abstract

Many efforts have been made to develop neutron capture therapy (NCT) for cancer treatment. Among the challenges in using NCT is the characterization of the features of the mixed radiation field and of its components. In this study, we examined the enhancement of the ESR response of pellets of alanine and ammonium tartrate with gadolinium oxide exposed to a thermal neutron beam. In particular, the ESR response of these dosimeters as a function of the gadolinium content inside the dosimeter was analyzed. We found that the addition of gadolinium improves the sensitivity of both alanine and ammonium tartrate. However, the use of gadolinium involves a reduces in or abolishes tissue equivalence because of its high atomic number (ZGd 64). Therefore, it is necessary to find the optimum compromise between the sensitivity to thermal neutrons and the reduction of tissue equivalence. Our analysis showed that a low concentration of gadolinium oxide (of the order of 5% of the total mass of the dosimeter) can enhance the thermal neutron sensitivity more than 13 times with an insignificant reduction of tissue equivalence.

Published

2008

23. Improvement of ESR dosimetry for thermal neutron beams through the addition of gadolinium

Author

G Rosi, Maurizio Marrale, G. Gennaro, Antonio Bartolotta, Maria Cristina D'Oca, Maria Brai, BRAI M, MARRALE M, GENNARO G, BARTOLOTTA A, D'OCA MC, and ROSI G

Subjects

Nuclear reaction, Materials science, Hot Temperature, Physics::Instrumentation and Detectors, Gadolinium, Physics::Medical Physics, Analytical chemistry, chemistry.chemical_element, Radiation Dosage, Fluence, Sensitivity and Specificity, law.invention, symbols.namesake, Nuclear magnetic resonance, law, Radiology, Nuclear Medicine and imaging, Neutron, Electron paramagnetic resonance, Radiometry, Neutrons, Dosimeter, Radiological and Ultrasound Technology, Auger effect, Electron Spin Resonance Spectroscopy, Reproducibility of Results, Neutron temperature, ESR dosimetry, thermal neutron, gadolinium, chemistry, symbols, Condensed Matter::Strongly Correlated Electrons

Abstract

In this paper, the addition of gadolinium is proposed as a useful tool to enhance the electron spin resonance (ESR) sensitivity of organic compounds to thermal neutrons. The target of this work is the detection, through the ESR technique, of the thermal neutron fluence in a mixed field of photons and neutrons. Gadolinium was chosen because it has a very high capture cross section to thermal neutrons; its nuclear reaction with thermal neutrons induces complex inner shell transitions that generate, besides other particles, Auger electrons, which in turn release their energy in the neighborhood (only several nanometers) of the place of reaction. Gadolinium was added to two organic molecules: alanine and ammonium tartrate. The main result obtained was a greater neutron sensitivity for dosimeters with gadolinium than for those without gadolinium for both organic molecules used. Since a dosimeter pair is required to discriminate between the two components of a mixed field, we studied the response of each dosimeter pair irradiated in a mixed field. Through a blind test we verified the usefulness of this dosimetric system and we obtained an estimate of the fluence in the mixed field with a relative uncertainty of 3%, when the pair composed of an alanine dosimeter and a dosimeter with alanine and gadolinium is used.

Published

2007

24. Seasonal variation of air kerma rate in Sicily

Author

S. Basile, Maurizio Marrale, Maria Brai, Salvatore Rizzo, BASILE, S, BRAI, M, MARRALE, M, and RIZZO, S

Subjects

Lithology, Health, Toxicology and Mutagenesis, Air pollution, chemistry.chemical_element, Radon, medicine.disease_cause, Atmospheric sciences, Kerma, Radiation Monitoring, medicine, Environmental Chemistry, Waste Management and Disposal, Sicily, Geography, business.industry, General Medicine, Seasonality, medicine.disease, Pollution, Ground level, Spectrometry, Gamma, chemistry, Air Pollutants, Radioactive, Thermoluminescence dosimetry, Spatial variability, Seasons, Nuclear medicine, business

Abstract

Thermoluminescence dosimetry has been used to measure air kerma in 29 sites in Sicily. Four three month measurement campaigns have been carried out in order to assess seasonal variations. Average annual values between 20 and 90 nGy h(-1), after cosmic background subtraction, are reported. Average annual values are strongly dependent on site lithology, and we find that winter data are generally the highest, while spring and autumn rates are generally the lowest with very similar trends in any site. Summer values generally lay in between. Largest seasonal variations are found in sites along the southern coast of the island, probably because of stronger action of winds affecting radon, along with its progeny, concentrations at ground level.

Published

2007

25. Noise reduction in magnetic resonance images by Wavelet transforms: an application to the study of capillary water absorption in sedimentary rocks

Author

Maria Brai, Villiam Bortolotti, Giuseppe Raso, Paola Fantazzini, Mirko Gombia, T. Schillaci, R. Barraco, SCHILLACI T, BARRACO R, BRAI M, RASO G, BORTOLOTTI V, GOMBIA M, FANTAZZINI P, BARRACO RM, M BRAI, G RASO, M GOMBIA, V BORTOLOTTI, P FANTAZZINI, P. FANTAZZINI, J. C. GORE, T. Schillaci, R. Barraco, M. Brai, G. Raso, V. Bortolotti, M. Gombia, and P. Fantazzini

Subjects

CAPILLARY ABSORPTION, medicine.diagnostic_test, Chemistry, Noise reduction, Capillary water absorption, Biomedical Engineering, Biophysics, Wavelet transform, Mineralogy, Magnetic resonance imaging, NOISE REDUCTION, medicine, WAVELET TRANSFORMS, Radiology, Nuclear Medicine and imaging, Sedimentary rock, MRI

Abstract

Magnetic resonance imaging (MRI) is a powerful technique to study capillary water absorption kinetics in sedimentary rocks. However, the noise in the images can limit the correct identification and the quantitative measurement of the average height reached by the wetting front inside the porous material where imbibition occurs. Therefore, denoising methods can be applied to improve the image quality for a more accurate analysis, without the disadvantages of longer acquisition times. This study attempts to improve the signal-to-noise ratio of the images acquired by MRI on a sedimentary rock (Pietra di Lecce) using a waveletbased thresholding technique. The idea is to average some slightly different discrete wavelet tansforms (DWT), called e-decimated DWT, to define the stationary wavelet transforms (SWT).

Published

2007

26. Power saturation of ESR signal in ammonium tartrate exposed to 60Co gamma-ray photons, electrons and protons

Author

Maurizio Marrale, Maria Cristina D'Oca, Alessandro Triolo, Maria Brai, Antonio Bartolotta, MARRALE M, BRAI M, TRIOLO A, BARTOLOTTA A, and D'OCA MC

Subjects

Photon, Biophysics, Linear energy transfer, Electrons, Electron, Radiation, Radiation Dosage, Sensitivity and Specificity, law.invention, law, Radiology, Nuclear Medicine and imaging, Linear Energy Transfer, Irradiation, Cobalt Radioisotopes, Electron paramagnetic resonance, Radiometry, Saturation (magnetic), Tartrates, Photons, Dosimeter, Chemistry, Electron Spin Resonance Spectroscopy, Reproducibility of Results, Dose-Response Relationship, Radiation, Ammonium Tartrate, 60Co -Ray Photons, Electrons and Protons, Gamma Rays, Atomic physics, Protons, Algorithms

Abstract

Marrale, M., Brai, M., Triolo, A., Bartolotta, A. and D'Oca, M. C. Power Saturation of ESR Signal in Ammonium Tartrate Exposed to 60Co γ-Ray Photons, Electrons and Protons. Radiat. Res. 166, 802–809 (2006). In this paper we present an investigation of the electron spin resonance (ESR) line shape of ammonium tartrate (AT) dosimeters exposed to radiation with different linear energy transfer (LET). We exposed our dosimeters to γ-ray photons (60Co), 7 MeV and 14 MeV initial energy electrons, and 19.3 MeV initial energy protons. The differences in the power saturation behavior of ESR spectra of AT irradiated with photons, electrons and protons could be correlated to the effective LET of the radiation beams. We analyzed the behavior of peak-to-peak amplitude as a function of microwave power, and we developed a fitting procedure that permits us to obtain the dependence of the homogeneity parameter of the line shape on the LET of the radiation using the Castner saturation theory. This simple procedure a...

Published

2006

27. ESR response to gamma-rays of alanine pellets containing B(OH)3 or Gd2O3

Author

Maria Cristina D'Oca, Maria Brai, Maurizio Marrale, G. Gennaro, Antonio Bartolotta, BRAI M, GENNARO G, MARRALE M, BARTOLOTTA A, and D'OCA MC

Subjects

Alanine, High atomic number, Radiation, Gadolinium, Radiochemistry, Pellets, Electron Spin Resonance Spectroscopy, chemistry.chemical_element, ESR, B(OH)3, Gd2O3, Sensitivity, Mass energy absorption coefficient, chemistry, Boric Acids, Isotopes, Gamma Rays, Yield (chemistry), Radiometry, Boron

Abstract

ESR response to gamma-irradiation (1-50 Gy) of blends containing alanine and either B(OH)(3) or Gd(2)O(3) is reported. The sensitivity of the alanine--B(OH)(3) blend is comparable to the sensitivity of pure alanine, although its lowest detectable dose, LDD, is smaller ( approximately 1.3 Gy) than that of pure alanine ( approximately 2.9 Gy). Alanine with Gd(2)O(3) is about two times more sensitive than pure alanine, and its LDD is 0.8 Gy. The better sensitivity and LDD are probably due to the high atomic number (Z=64) of gadolinium, which enhances the interaction probability with photons and, consequently, the radical yield. This study suggests that other high-Z atoms may be useful for increasing the sensitivity of the response of alanine to gamma-radiation.

Published

2006

28. Discrimination of Radiation Quality Through Second Harmonic Out-of-Phase cw-ESR Detection

Author

Maurizio Marrale, Maria Brai, Marina Brustolon, Antonio Barbon, Anna Longo, Marrale, M., Longo, A., Brai, M., Barbon, A., and Brustolon, M.

Subjects

Quality Control, Time Factors, Photon, Time Factor, Biophysics, Linear energy transfer, Radiation, Ionizing radiation, Quality (physics), Optics, Radiation, Ionizing, Linear Energy Transfer, Radiology, Nuclear Medicine and imaging, Microwaves, Chemistry, business.industry, Electron Spin Resonance Spectroscopy, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), EPR spectroscopy, radiation effects, Biophysic, Absorbed dose, Harmonic, Continuous wave, Atomic physics, business, Microwave

Abstract

The ability to discriminate the quality of ionizing radiation is important because the biological effects produced in tissue strongly depends on both absorbed dose and linear energy transfer (LET) of ionizing particles. Here we present an experimental electron spin resonance (ESR) analysis aimed at discriminating the effective LETs of various radiation beams (e.g., 19.3 MeV protons, 60Co photons and thermal neutrons). The measurement of the intensities of the continuous wave spectrometer signal channel first harmonic in-phase and the second harmonic out-of-phase components are used to distinguish the radiation quality. A computational analysis, was carried out to evaluate the dependence of the first harmonic in-phase and second harmonic out-of-phase components on microwave power, modulation amplitude and relaxation times, and highlights that these components could be used to point out differences in the relaxation times. On the basis of this numerical analysis the experimental results are discussed. The methodology described in this study has the potential to provide information on radiation quality. © 2014 by Radiation Research Society.

Published

2014

29. Electronic paramagnetic resonance power saturation of wooden samples

Author

Maurizio Marrale, Antonella Maccotta, Maria Brai, Anna Longo, Brai, M, Longo, A, Maccotta, A, and Marrale, M

Subjects

Softwood, Microwave power, Analytical chemistry, General Physics and Astronomy, EPR, wooden samples, law.invention, chemistry.chemical_compound, Paramagnetism, chemistry, law, Lignin, Cellulose, Electron paramagnetic resonance, Saturation (magnetic)

Abstract

The deterioration of wood used for artifacts of artistic interest involves the production of different free radicals from the macromolecules of the wooden matrix (cellulose, lignin, and hemicellulose). Among the techniques able to provide information about these free radicals, the contribution of electronic paramagnetic resonance (EPR) can be very valuable. In this paper, the study of EPR signals (with g 2) of both modern and ancient wooden taxa was undertaken in order to analyze some features of the free radicals in natural wood. In particular, we have studied the microwave power saturation behaviors of seasoned wooden samples from ten species, and we have found remarkable differences between softwoods and hardwoods. These differences can be correlated to dissimilarities in the relaxation times T1 and T2 attributable to the different microscopic structures of the two trees' categories. The method has been also applied to ancient woods belonging to works of art in order to assess the conservation state of these artifacts. The analysis of the saturation curves has been found to be sensitive to the wood decay state. Indeed the deterioration process of the wooden matrix involves a variation of the relaxation times; this could be ascribed to both possible structure modifications and to concentration increments of the free radicals inside ancient woods due to decay induced by natural (biological, chemical, and physical) agents. This analysis method seems to be promising for the characterization of the wooden decay state and, therefore, it could provide valuable diagnostic indications which are necessary for the restoration and conservation of many artifact of historical-artistic-archaeological interest.

Published

2009

30. Solid-liquid nuclear magnetic resonance relaxation and signal amplitude relationships with ranking of seasoned softwoods and hardwoods

Author

Robert J. S. Brown, Mirko Gombia, Carla Garavaglia, Maria Brai, Paola Fantazzini, Antonella Maccotta, Fantazzini, P, Maccotta, A, Gombia, N, Garavaglia, C, Brown, RJS, and Brai, M

Subjects

Free induction decay, Millisecond, Softwood, Amplitude, Nuclear magnetic resonance, Chemistry, Relaxation (NMR), Hardwood, Proton NMR, Analytical chemistry, General Physics and Astronomy, NMR - relaxation time - hardwood - softwood - UPEN, Water content

Abstract

In 1H NMR (Nuclear Magnetic Resonance) relaxation measurements for a set of eight hardwood and softwood samples, each Free Induction Decay (FID) is fit by the sum of a “Solid” signal of the form A exp[−c(t/Ts)2] [1−g(t/Ts)2+h(t/Ts)4] plus a “Liquid” signal B exp(−t/T2 FID). Distributions of longitudinal (T1) relaxation times were computed separately for the Solid and Liquid components, giving also the Solid/Liquid 1H ratio α. From measurements on the samples dried, seasoned, and hydrated, the moisture content, (Liquid/Solid weight ratio) was found to be approximately 0.50/α. For each of the “Seasoned” samples (10-13% moisture content) a single T1 peak was found for the Solid and two for the Liquid, with the longer Liquid T1 close to that of the Solid, but with some differences exceeding perceived experimental uncertainties. None of the Solid or Liquid-long T1’s is much less than 20 ms, even though Liquid-short times go as low as 0.35 ms, appearing to negate simple Solid-to-Liquid exchange on a ms time scale. Data for six of the samples (all except for two resin-containing pine species) can be formally fit by a two-site exchange model, in which cases the Solid-to-Liquid exchange times are a few tens of ms. For our set of wood samples, each of the above three T1 values, and also the overall Liquid geometric-mean and rate-average T1’s, as well as the Liquid long-T1 fraction, for a seasoned hardwood is longer than the corresponding value for any softwood, suggesting that relaxation parameters may provide a useful ranking of seasoned woods.

Published

2006