Thermal fading (TF) is important in choosing appropriate
thermoluminescence (TL) materials for particular applications. TF is the
process of reducing the capability of producing the response due to radiation
exposure. The fading rate of LiF based thermoluminescent (TL) material depends
on many experimental parameters such as storage temperature, readout mechanism,
annealing and radiation
type or time based on the storage time before or after radiation.
The general aim of the present
work is to investigate if the activation
energy E, frequency factor s, temperature T and concentration µ0 values evaluated from the experimental thermal fading
rates glow–curves through a computerized glow–curve deconvolution analysis
(CGCD), can simulate the thermal fading
glow-curves using a phenomenological
model for LiF;Mg,Ti.
Thermal fading thermoluminescence activation energy frequency factor
Thermal fading (TF) is important in choosing appropriate
thermoluminescence (TL) materials for particular applications. TF is the
process of reducing the capability of producing the response due to radiation
exposure. The fading rate of LiF based thermoluminescent (TL) material depends
on many experimental parameters such as storage temperature, readout mechanism,
annealing and radiation
type or time based on the storage time before or after radiation.
The general aim of the present
work is to investigate if the activation
energy E, frequency factor s, temperature T and concentration µ0 values evaluated from the experimental thermal fading
rates glow–curves through a computerized glow–curve deconvolution analysis
(CGCD), can simulate the thermal fading
glow-curves using a phenomenological
model for LiF;Mg,Ti.
Thermal fading thermoluminescence activation energy frequency factor
Birincil Dil | İngilizce |
---|---|
Konular | Mühendislik |
Bölüm | Articles |
Yazarlar | |
Yayımlanma Tarihi | 25 Ağustos 2017 |
Gönderilme Tarihi | 1 Nisan 2017 |
Yayımlandığı Sayı | Yıl 2017Cilt: 4 Sayı: 1 |