Details

Autor(en) / Beteiligte

• Soundara-Pandian, L.
• Hawrami, R.
• Glodo, J.
• Ariesanti, E.
• van Loef, E. V.
• Shah, K.

Titel

Lithium Alkaline Halides-Next Generation of Dual Mode Scintillators

Ist Teil von

• IEEE transactions on nuclear science, 2016-04, Vol.63 (2), p.490-496

Ort / Verlag

New York: IEEE

Erscheinungsjahr

2016

Quelle

IEEE Electronic Library (IEL)

Beschreibungen/Notizen

• We report on a new family of scintillators - Lithium alkaline halides, developed based on the alkaline halides by introducing lithium for dual mode gamma-neutron detection. Many different compositions were grown, among which LiSr 2 I 5 (LSI), LiCa 2 I 5 (LCI), LiSr 2 Br 5 (LSB) activated with divalent Europium show good gamma and neutron detection properties. LSI shows the main emission at ~ 497 nm under X-ray excitation. It also shows good proportionality, which in combination with the light yield as high as 60000 photons/MeV, results in an energy resolution of 3.5% at 662 keV. The electron or gamma equivalent energy (GEE) of the thermal neutron peak due to the 6Li neutron capture is 4.1 MeV, which amounts to a very high neutron light yield of ~ 245000 photons. The decay times for neutrons are faster compared to that for gamma-rays, hence we achieved good pulse shape discrimination (PSD) between gamma and neutron events. Our initial studies on the effects of Eu concentration on the properties of LSI show that 3%-4% Eu concentration is optimal for the best performance in terms of gamma and neutron light yields and pulse shape discrimination. LCI shows the main emission at ~ 475 nm under X-ray excitation and a very high gamma light yield of ~ 90000 photons/MeV. The measured energy resolution is 6% at 662 keV. The electron equivalent energy for neutron detection has been measured to be around 3 MeV, which gives a neutron light yield of ~270 000 photons. The measured decay times for neutrons are faster compared to gamma decays and the PSD between the gamma-rays and neutrons is not as good as LSI. LSB shows two emissions at ~ 410 and 475 nm under X-ray excitation. The measured light yield is ~ 32000 ph/MeV gamma-ray with an energy resolution of 6% at 662 keV. The electron equivalent energy of the 6 Li capture peak was measured to be 3.3 MeV.