TY - JOUR
T1 - Application of thermal treatment of zircon for the interpretation of luminescence centers
AU - Gaft, M.
PY - 1992/10
Y1 - 1992/10
N2 - The photoluminescence (PL) of zircon is characterized by a broad structureless spectral band down to 4.6 K, which does not enable correct interpretation of the nature of the luminescence centres (LC). By applying step-like thermal treatment, a radiation treatment and timeresolved spectroscopy, seven pure bands were separated and their individual spectral-kinetic properties were determined. The yellow PL is connected with three LC: 1. Intrinsic defects of the (SiOm)n- type, which are generated by radioactive decay of U and Th; 2. Impurity defects (MeOm)n- (Me-Mo, V) associated with charge compensators, probably the Fe3+ and Ti3+ (clusters of these LC generate a yellow-orange shoulder); 3. Impurity defects (UO2)2+. The blue PL is connected with impurity defects (TiOm)n-. The red PL is connected with impurities Fe3+ and Ti3+. These LC are characterized by a different thermal stability and response to ionizing irradiation. This work allows us to propose some practical applications in the fields of dating, dosimetry and genetical mineralogy.
AB - The photoluminescence (PL) of zircon is characterized by a broad structureless spectral band down to 4.6 K, which does not enable correct interpretation of the nature of the luminescence centres (LC). By applying step-like thermal treatment, a radiation treatment and timeresolved spectroscopy, seven pure bands were separated and their individual spectral-kinetic properties were determined. The yellow PL is connected with three LC: 1. Intrinsic defects of the (SiOm)n- type, which are generated by radioactive decay of U and Th; 2. Impurity defects (MeOm)n- (Me-Mo, V) associated with charge compensators, probably the Fe3+ and Ti3+ (clusters of these LC generate a yellow-orange shoulder); 3. Impurity defects (UO2)2+. The blue PL is connected with impurity defects (TiOm)n-. The red PL is connected with impurities Fe3+ and Ti3+. These LC are characterized by a different thermal stability and response to ionizing irradiation. This work allows us to propose some practical applications in the fields of dating, dosimetry and genetical mineralogy.
KW - luminescence centers
KW - zircon
UR - http://www.scopus.com/inward/record.url?scp=0026929569&partnerID=8YFLogxK
U2 - 10.1007/BF02123981
DO - 10.1007/BF02123981
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AN - SCOPUS:0026929569
SN - 0368-4466
VL - 38
SP - 2281
EP - 2290
JO - Journal of Thermal Analysis
JF - Journal of Thermal Analysis
IS - 10
ER -