Your search keyword '"James RB"' showing total 2 results

1. Ionizing radiation detection by Yb-doped silica optical fibers

Author

Franks, L, James, RB, Fiederle, M, Burger, A, De Mattia, C, Veronese, I, Fasoli, M, Chiodini, N, Mones, E, Cantone, M, Cialdi, S, Gargano, M, Ludwig, N, Bonizzoni, L, Vedda, A, FASOLI, MAURO, CHIODINI, NORBERTO, VEDDA, ANNA GRAZIELLA, Franks, L, James, RB, Fiederle, M, Burger, A, De Mattia, C, Veronese, I, Fasoli, M, Chiodini, N, Mones, E, Cantone, M, Cialdi, S, Gargano, M, Ludwig, N, Bonizzoni, L, Vedda, A, FASOLI, MAURO, CHIODINI, NORBERTO, and VEDDA, ANNA GRAZIELLA

Abstract

Rare earths-doped silica optical fibers have shown promising results for ionizing radiation monitoring, thanks to their radio-luminescence (RL) properties. However, the use of these systems for accurate and precise dosimetric measurements in radiation fields above the Cerenkov energy threshold, like those employed in radiation therapy, is still challenging, since a spurious luminescence, namely the "stem effect" is also generated in the passive fiber portion exposed to radiation. The spurious signal mainly occurs in the UV-VIS region, therefore a dopant emitting in the near infrared may be suitable for an optical discrimination of the stem effect. In this work, the RL and dosimetric properties of Yb-doped silica optical fibers, produced by sol-gel technique, are studied, together with the methods and instruments to achieve an efficient optical detection of the Yb3+ emission, characterized by a sharp line at about 975 nm. The results demonstrate that the RL of Yb3+ is free from any spectral superposition with the spurious luminescence. This aspect, in addition with the suitable linearity, reproducibility, and sensitivity properties of the Yb-doped fibers, paves the way to their use in applications where an efficient stem effect removal is required.

Published

2015

2. Ionizing radiation detection by Yb-doped silica optical fibers

Author

Nicola Ludwig, Marie Claire Cantone, Marco Gargano, Anna Vedda, Simone Cialdi, Norberto Chiodini, Ivan Veronese, Mauro Fasoli, Letizia Bonizzoni, Cristina De Mattia, E. Mones, Franks, L, James, RB, Fiederle, M, Burger, A, De Mattia, C, Veronese, I, Fasoli, M, Chiodini, N, Mones, E, Cantone, M, Cialdi, S, Gargano, M, Ludwig, N, Bonizzoni, L, and Vedda, A

Subjects

Ytterbium, Materials science, Optical fiber, Physics::Optics, chemistry.chemical_element, Radiation, Ionizing radiation, law.invention, Optics, law, Dosimetry, Rare earth, Doped silica, Fiber, Electrical and Electronic Engineering, Dopant, business.industry, Electronic, Optical and Magnetic Material, Near-infrared spectroscopy, Computer Science Applications1707 Computer Vision and Pattern Recognition, Condensed Matter Physics, Radiation therapy, Scintillating optical fiber, Applied Mathematic, FIS/01 - FISICA SPERIMENTALE, chemistry, Radiation detection, Optoelectronics, business, Luminescence

Abstract

Rare earths-doped silica optical fibers have shown promising results for ionizing radiation monitoring, thanks to their radio-luminescence (RL) properties. However, the use of these systems for accurate and precise dosimetric measurements in radiation fields above the Cerenkov energy threshold, like those employed in radiation therapy, is still challenging, since a spurious luminescence, namely the “stem effect,” is also generated in the passive fiber portion exposed to radiation. The spurious signal mainly occurs in the UV-VIS region, therefore a dopant emitting in the near infrared may be suitable for an optical discrimination of the stem effect. In this work, the RL and dosimetric properties of Yb-doped silica optical fibers, produced by sol-gel technique, are studied, together with the methods and instruments to achieve an efficient optical detection of the Yb3+ emission, characterized by a sharp line at about 975 nm. The results demonstrate that the RL of Yb3+ is free from any spectral superposition with the spurious luminescence. This aspect, in addition with the suitable linearity, reproducibility, and sensitivity properties of the Yb-doped fibers, paves the way to their use in applications where an efficient stem effect removal is required.

Published

2015