The low temperature scintillation properties of 5 atomic Eu:SrI 2 from ambient temperature down to 5 K were studied for the first time. With decreasing temperature, a shift in emission wavelength and a shortening of decay time were observed. Light yield and energy resolution exhibited notable changes with temperature, and were maximized as temperature was decreased. A degradation of light yield proportionality with decreasing temperature was observed. © 2012 IEEE
Self-absorption of the Eu2+ emission is an important aspect in SrI2:Eu that affects its scintillatio...
The temperature dependence of a NaI(Tl) scintillation detector's response has been studied in t...
Applications that utilize scintillation detectors at low temperatures are growing in number. Many of...
The low temperature scintillation properties of 5 atomic Eu:SrI 2 from ambient temperature down to 5...
Experimental results are reviewed and compared with those of the author. The temperature effect of t...
In this paper, the room-temperature performance of different optical coupling materials post tempera...
The light emission from scintillators which are liquid at room temperature was studied in the interv...
In this work, we first investigate the relationship between temperature and lattice parameters by me...
AbstractEffects of temperature above ambient (300-550°K) on liquid scintil. lators are presented. Un...
We report experimental study of luminescent properties of modern scintillation material SrI 2:Eu 2+ ...
The effect of temperature changes on the light output of LAB based liquid scintillator is investigat...
International audienceSrI2:Eu crystals with the activator content of 0.1–5.5% were grown by the Brid...
A custom design cryostat was constructed to study the temperature dependence of relative light yield...
The influence of different activator impurities on the scintillation yield of alkali halides has bee...
Presents readers with the basic science, technology, and applications for every type of adaptive len...
Self-absorption of the Eu2+ emission is an important aspect in SrI2:Eu that affects its scintillatio...
The temperature dependence of a NaI(Tl) scintillation detector's response has been studied in t...
Applications that utilize scintillation detectors at low temperatures are growing in number. Many of...
The low temperature scintillation properties of 5 atomic Eu:SrI 2 from ambient temperature down to 5...
Experimental results are reviewed and compared with those of the author. The temperature effect of t...
In this paper, the room-temperature performance of different optical coupling materials post tempera...
The light emission from scintillators which are liquid at room temperature was studied in the interv...
In this work, we first investigate the relationship between temperature and lattice parameters by me...
AbstractEffects of temperature above ambient (300-550°K) on liquid scintil. lators are presented. Un...
We report experimental study of luminescent properties of modern scintillation material SrI 2:Eu 2+ ...
The effect of temperature changes on the light output of LAB based liquid scintillator is investigat...
International audienceSrI2:Eu crystals with the activator content of 0.1–5.5% were grown by the Brid...
A custom design cryostat was constructed to study the temperature dependence of relative light yield...
The influence of different activator impurities on the scintillation yield of alkali halides has bee...
Presents readers with the basic science, technology, and applications for every type of adaptive len...
Self-absorption of the Eu2+ emission is an important aspect in SrI2:Eu that affects its scintillatio...
The temperature dependence of a NaI(Tl) scintillation detector's response has been studied in t...
Applications that utilize scintillation detectors at low temperatures are growing in number. Many of...
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