In Heritage Science applications, in-situ and non-destructive analyses are commonly preferred. The valuable nature of historical objects often hinders the possibility of either sample or transport them into laboratories. Macro X-ray fluorescence (MA-XRF) has become widespread in the archaeometry field, due to its non-destructive and non-invasive characteristics and especially to the amount of information provided by the technique. Unfortunately, most of the instruments are either fixed or mobile, hindering their in-situ applications. Moreover, most of the mobile instrumentation are bulky and require some logistics for transportation. In this scope, a modular instrument has been developed. The scanner, which requires no more than one person to transport and assemble, has been tested and compared under compatible circumstances to state-of-the-art instrumentation. Preliminary results are presented and discussed.
Modular MA-XRF scanner potentialities and further advances / Barcellos Lins, S. A.; Manso, M.; Gigante, G. E.; Cesareo, R.; Tortora, L.; Branchini, P.; Ridolfi, S.. - (2020), pp. 496-500. (Intervento presentato al convegno IMEKO TC-4 International conference on metrology for archaeology and cultural heritage tenutosi a Trento, Italy).
Modular MA-XRF scanner potentialities and further advances
Barcellos Lins, S. A.;Gigante, G. E.;Cesareo, R.;Ridolfi, S.
2020
Abstract
In Heritage Science applications, in-situ and non-destructive analyses are commonly preferred. The valuable nature of historical objects often hinders the possibility of either sample or transport them into laboratories. Macro X-ray fluorescence (MA-XRF) has become widespread in the archaeometry field, due to its non-destructive and non-invasive characteristics and especially to the amount of information provided by the technique. Unfortunately, most of the instruments are either fixed or mobile, hindering their in-situ applications. Moreover, most of the mobile instrumentation are bulky and require some logistics for transportation. In this scope, a modular instrument has been developed. The scanner, which requires no more than one person to transport and assemble, has been tested and compared under compatible circumstances to state-of-the-art instrumentation. Preliminary results are presented and discussed.| File | Dimensione | Formato | |
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