论文信息 - A compact small-beam XRF instrument for in-situ analysis of objects of historical and/or artistic value

A compact small-beam XRF instrument for in-situ analysis of objects of historical and/or artistic value

Abstract The analytical characteristics, possibilities and limitations of a compact and easily transportable small-beam XRF instrument are described. The instrument consists of a compact, mini-focus Mo X-ray tube that is collimated to produce a sub-mm beam and a peltier-cooled PIN diode detector. Relative MDLs in highly scattering matrices are situated in the 10–100-ppm range; for metallic matrices featuring strong matrix lines, the MDLs of the instrument are approximately a factor 2 higher. Since only a small irradiation area is required, a simple micro-polishing technique that may be performed in situ in combination with the measurements is shown to be effective for the determination of the bulk composition of corroded bronze objects. As an example, a series of Egyptian bronze objects date from XXIInd Egyptian Dynasty (ca. 1090 bc ) to the Roman era (30 bc to 640 ad ) was analyzed in order to contribute to the very limited database on Cu–alloy compositions from this period.

[1] C. Cicardi,et al. Simple Methods for Quantitative X-Ray Fluorescence Analysis of Ancient Metal Objects of Archaeological Interest† , 1997 .

[2] Koen Janssens,et al. A micro-XRF spectrometer based on a rotating anode generator and capillary optics , 1996 .

[3] Koen Janssens,et al. Micro and Surface Analysis in Art andArchaeology , 1997 .

[4] John L. Campbell,et al. PIXE: A Novel Technique for Elemental Analysis , 1988 .

[5] N. D. Meeks,et al. IRON IN ANCIENT COPPER , 1987 .

[6] P. Espen,et al. General approach for quantitative energy dispersive x-ray fluorescence analysis based on fundamental parameters , 1991 .

[7] A. David. Science in Egyptology , 1979, Antiquity.

[8] A. Lucas. Ancient Egyptian Materials and Industries , 1935 .