The research on the NCMA’s classical collection continues and that is making me really, really happy. It might not be related to ancient Egypt or Nubia, but at least it’s ancient! Very late in November, our intellectual travels took us to South Italy and Sicily, where the ancient Greeks established colonies. Keely H, who is an expert on this material, took a look at the small collection from the art historical and archaeological standpoint; she was assisted by yours truly as well as Stacey, NCMA conservation technician. Objects conservator Corey was examining the collection from the conservation perspective.
The collection consists of various ceramic vessels, some of which are wonderfully coloured… but are all these pigments actually ancient? That is the question! We are trying to find the answer by looking at the objects under UV lights, by X-ray fluorescence (which was done by NCMA paintings conservator Noelle who is not on the photos), and hopefully even by sampling for further testing in later months. Stay tuned for that!
After having identified the sculptures that still bore traces of pigments, the next step was to do x-ray fluorescence. This is a non-invasive technique used for the identification of non-organic pigments. It is not enough to note the presence of pigments on sculpture and take photographs of their location; we need to know of what these mineral pigments are made. This helps with the dating and authentication of the work of art because certain pigments are used in specific countries (or cultures) or during specific historical periods.
The analysis was conducted by Scott Pike, associate professor of geology and earth sciences at Willamette University, who had in his luggage his very handy x-ray gun. While we worked together, Scott explained how this Star Trek phaser looking thing works. This instrument send x-rays on the non-organic matter we wish to analyze. This results in electrons being bumped from their atomic orbital positions, releasing a burst of energy (fluorescence) that is characteristic of specific elements (elements of the periodic table, that is). The fluorescence is identified and recorded by the device. Each pigment will have its own combination of elements. Thanks to this technique, we can tell if the red pigment is actually red ochre (an iron oxide used in ancient Egypt) or cinnabar (mercury sulphide used by the Romans).
The x-ray gun is controlled with a computer. Although I did have my photo taken with very cool looking instrument (I just had to!), I assisted Scott by manning the computer while he held the portable XRF device to do the analysis. Elizabeth joined us in the galleries for a while and that allowed me to take a few pictures. Luckily, x-ray fluorescence does not require to be done in the dark. So we didn’t have to work late nights at the museum. All we had to do was stanchion off a work area around the sculpture under examination so that people did not disturb us… but we did have some people intrigued enough to stop by and observe what we were doing.
Acne treatment for our Celestial god? Not really. We have to take a reading from a neutral zone as well as the places where pigments are found.
The ram on the sarcophagus fragment is being poked in the eye by Elizabteth. The location of each analysis is identified on a picture. We just point with a stick.
Scott applies the x-ray gun to the eye of the ram, which has some traces of red pigment.
Scott and Elizabeth take readings on the sarcophagus fragment.
Computer monitor showing the spike chart during analysis.
The Cypriot Priest not getting laser eye surgery… the red pigment used to colour his eyes is being analyzed by the portable XRF device.