Title of article
Scintillating properties of pure and doped BGO ceramics
Author/Authors
Geane C. Santana، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2007
Pages
5
From page
2231
To page
2235
Abstract
The ceramic processing and characterization
of Bi4Ge3O12 pure and doped with Eu3+ and Nd3+
was performed in order to investigate its potential use
in radiation detector devices. Single phase Bi4Ge3O12
in pure state and containing 1% of the dopands Nd3+
and Eu3+ were produced via a solid state route and
their photoluminescent and radioluminescent properties
were investigated. When excited at 200–230 nm,
pure BGO ceramics presented a wide photoluminescent
band emission centered at 450 nm, assigned to the
Bi3+ internal transitions. For the doped samples under
the same excitation, this wide band was superposed by
the emission peaks of the rare earth dopands, at
around 600 nm for BGO:Eu3+ and at 350 nm, 430 and
600 nm for BGO:Nd3+. Radioluminescence measurements
presented similar results and allowed the determination
of the light output efficiency of the three
scintillators. The values determined were 4 · 103
photons/MeV for BGO:Nd and 5.9 · 103 photons/
MeV for BGO:Eu, which are higher than the value
3.9 · 103 photons/MeV determined previously for the
pure ceramic. A selective sensibility of the BGO:Eu
ceramics to the nature and energy of the radiation,
which is not observed in pure samples, was also
presented and discussed.
Journal title
Journal of Materials Science
Serial Year
2007
Journal title
Journal of Materials Science
Record number
832627
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