Ar. Lakshmanan et al., PHOTOLUMINESCENCE OF F-AGGREGATE CENTERS IN THERMAL-NEUTRON IRRADIATED LIF TLD-100 SINGLE-CRYSTALS, Physica status solidi. a, Applied research, 153(1), 1996, pp. 265-273
On excitation with 445 nm light, thermal neutron and gamma-ray irradia
ted thermoluminescent dosimetry (TLD) grade LiF TLD-100 single crystal
s exhibit green photoluminescence (PL) emission with a peak around 521
nm characteristic of F-3(+) centers and a red PL emission peaking aro
und 656 nm characteristic of F-2 centers. At low dose levels, the 515
to 653 nm PL intensity ratio for thermal neutrons is nearly three time
s higher when compared to that for gamma-rays. The results are discuss
ed on the basis of the trap structures of these two defect centers and
microdosimetric concepts. The integrated PL emission from 460 to 600
nm increases nearly linearly between 10(10) and 10(13) n cm(-2). On a
dose equivalent basis, the intensity of this PL is nearly 1350 times s
tronger for thermal neutrons than for Co-60 gamma-rays.