Heritage (Jan 2019)

Using Negative Muons as a Probe for Depth Profiling Silver Roman Coinage

  • Bethany V. Hampshire,
  • Kevin Butcher,
  • Katsu Ishida,
  • George Green,
  • Don M. Paul,
  • Adrian D. Hillier

DOI
https://doi.org/10.3390/heritage2010028
Journal volume & issue
Vol. 2, no. 1
pp. 400 – 407

Abstract

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Debasement of silver Roman coins is a well-known phenomenon and understanding the quality of ancient silver coinages can provide an idea about the underlying fiscal condition of the issuing states. These coins are made from a silver-copper alloy, the surfaces of which were deliberately enhanced at the mints by a process of surface-enrichment to give them the appearance of being made of pure silver. Therefore, any surface analysis would provide a composition of the silver-copper alloy that would not be representative of the original alloy from which the coin blank was made; the result would be too high in silver. However, the bulk of the sample, the interior, should provide a composition that is true to the original alloy. Elemental analysis using negative muons has been used to provide a depth dependent compositional, completely non-destructive analysis of a silver-copper alloy denarius of the empress Julia Domna datable to 211⁻217 CE. The composition of the coin, beyond the surface enrichment layer, is 51 ± 1.8 % copper and 49 ± 1.9% silver, taken at a muon depth of 402 ± 61 µm. The surface enrichment layer is approximately 190 µm thick.

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