Radiocarbon

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Two methods of chemical preparation of radiocarbon samples are implemented in the Zagreb Radiocarbon Laboratory for measurement by a new liquid scintillation counter (LSC), Quantulus 1220 (super TM) : a CO (sub 2) absorption method (LSC-A) and a benzene synthesis method (LSC-B). For samples prepared by both methods, the optimal counting windows for measurement in LSC were determined. The total efficiency of LSC-A is 65% and that of the LSC-B is 83%, while the corresponding (super 14) C dating limits are 31,800 yr and 52, 160 yr, respectively. (super 14) C activities measured by the LSC-A and LSC-B methods were compared with those measured by the gas proportional counter (GPC) method (efficiency 75%, (super 14) C dating limit 37,500 yr). The results obtained by the LSC-A method have larger errors than those measured by the GPC method, but LSC-A is quick, inexpensive, simple, and requires less carbon than the GPC method. Thus, LSC-A is suitable for (super 14) C measurements of geological, hydrological, and environmental samples. On the other hand, the results obtained by the LSC-B method give smaller errors and a larger (super 14) C dating range. Therefore, LSC-B is more suitable for (super 14) C dating of archaeological samples.

absolute age;absorption method;archaeology ;benzene synthesis method;C 14;carbon ;carbon dioxide;Croatia ;errors ;Europe ;instruments ;isotopes ;liquid scintillation methods;measurement ;methods ;radioactive isotopes;Southern Europe;Zagreb Croatia;Zagreb Radiocarbon Laboratory