Effect of 7Li (45 MeV) ions on spinach leaves studied by thermoluminescence technique

“…The observed change in the TL glow peaks position of the irradiated materials could be attributed to the incompetence of the initial luminescence/trapping centers (LCs/TCs), due to use of energetic ions for bombardments. This effect was also observed in several ion beams irradiated materials [16][17][18].…”

Argon ions induced thermoluminescence properties of Ba0.12Sr0.88SO4 phosphor

“…The observed change in the TL glow peaks position of the irradiated materials could be attributed to the incompetence of the initial luminescence/trapping centers (LCs/TCs), due to use of energetic ions for bombardments. This effect was also observed in several ion beams irradiated materials [16][17][18].…”

Argon ions induced thermoluminescence properties of Ba0.12Sr0.88SO4 phosphor

“…Glow curve shows two peaks one around 400 K and a high temperature peak around 560 K. With increasing dose there is slight variation in the peak position and the intensities of both low and high temperature peaks have been observed to increase but there is rapid rise in the intensity of high temperature peak indicating deep traps are formed at high doses. Some authors have also reported such shifts in the TL peak position with ion beam bombardment and attributed this effect to disorganization of the initial energy bands [19,20]. TL intensity is found to be maximum for 5.76 kGy of Gamma rays.…”

Thermoluminescence characteristics of gamma irradiated CaS:Ce nanophosphors

“…There is a slight variation in the peak position with variation of the dose. Some authors have also reported such shifts in the TL peak position with ion beam bombardment and attributed this effect to disorganization of the initial energy bands [51].…”

Influence of halide flux on the crystallinity, microstructure and thermoluminescence properties of CdSiO3:Co2+ nanophosphor