Scanning tech helps archaeologists identify rare ‘ghost coin’

By  | April 15, 2016 | Filed under: Float Switch, Level Sensors, Wireless Sensors



April 15, 2016







Sophisticated CT scanning technology normally used by researchers from WMG at the University of Warwick to assist high tech manufacturing, has helped uncover the existence of a rare silver coin called an ‘Indio’ discovered by archaeologists investigating a shipwreck off the coast of Oman. Over 2,800 artefacts were found in the wreck, including a bronze bell with an inscription dating back to 1498, gold coins from the era and an important bronze disc embossed with the “esfera armilar” — a personal emblem of Dom Manuel I, the then-king of Portugal.

Professor Mark Williams, Head of Product Evaluation and Technologies at WMG said, “Our precision scanning technology is normally used to solve high tech engineering problems and help create new product designs, but on this occasion our scans were able to reveal that the archaeologists had found an “extraordinarily rare silver coin” called an Indio — the rarity of which is such that it has legendary status as the ‘lost’ or ‘ghost’ coin of Dom Manuel.”

There is only one other known example of índio coin in the world, which is held within the numismatic collection of the National Historical Museum of Brazil (MHN) in Rio de Janeiro. Despite the existence of the MHN specimen, the índio, because of its extreme rarity, has assumed legendary status within the numismatic community of Portugal as the ‘lost’ or ‘ghost’ coin of Dom Manuel I.

To ensure correct identification of the índio recovered from the site, the block within which it was contained was CT scanned at WMG, University of Warwick using the 225kV head of the Nikon CT scanner, which provides 16-micron resolution. Even with such relatively poorly preserved coins the resulting scans clearly revealed the same coat of arms and legend on the obverse matching the MHN specimen as well as the detailed description of the same coin that featured in a 1910 auction catalogue from Amsterdam.

Another of the artefacts found on the wreck site was a small ship’s bell. The bell was discovered beneath a boulder at a depth of just 4.3 metres where it had been for the past 510 years. The bell, despite being fractured in two pieces, appeared to have a raised inscription just below the shoulder containing letters and numerals that might be a clue to the identity of the ship. The problem, however, was that the inscription was barely visible beneath a thick layer of corrosion crust.

The only way to decipher what was written in the inscription without physically touching or harming the bell was by X-raying it, the bell was taken to WMG, University of Warwick. At WMG Dr Jason Warnett used non-destructive high-resolution imaging of the bell using their Nikon Metrology 320kV micro-focus X-ray (64 micron resolution) for computed tomography (CT). By CT scanning the bell before any conservation treatment was performed it was possible to reveal minute details within the inscription. Thanks to the powerful 320kV X-ray source being able to penetrate the crust the internal details were revealed.

Dr Warnett, researcher at WMG said, “It has been fantastic to work on such an exciting project, engineering skills and new technology contributing to historic archaeological discoveries like this really is the future.”

The CT scanning consisted of multiple 3.5-hour scan cycles, consisting of 3,142 individual X-ray projections. Different orientations of the bell were necessary to achieve optimum penetration whilst minimizing unwanted X-ray scatter that would obscure characters in the inscription. The scans revealed an ‘8’ and an ‘M’ that were barely visible to the naked eye. The next scan clearly revealed a ‘9’ to the left of the ‘8’, and then a final scan revealed a less apparent ‘4’ to the left of the ‘9’.

Although no other letters could be made out in addition to the ‘M’, this non-destructive imaging indicated that the inscription included a date (‘498’) that was chronologically correct with the known history of the ships squadron, which had left Lisbon in 1502.

David L. Mearns, Director of the Esmeralda Shipwreck project who brought these priceless artefacts to WMG, commented, “The use of CT scanning technology is fairly new to archaeological investigations but our project has proved what a powerful analytical tool it can be. Besides the bell date and indio coin revelations, the scans made by Professor Mark Williams and Dr Jay Warnett allowed us to identity all 24 silver coins within concreted clumps that would have been impossible to achieve without irreversibly damaging these rare coins.”

To read the full article in the International Journal of Nautical Archaeology: http://onlinelibrary.wiley.com/doi/10.1111/1095-9270.12175/abstract

 

Watch a video of the CT Scanning of the ship’s bell: http://esmeraldashipwreck.com/archaeology/#

Find out more about the Esmerelda shipwreck: http://esmeraldashipwreck.com/

To find out more about WMG’s 3D scanning research visit http://www2.warwick.ac.uk/fac/sci/wmg/research/metrology/

Source Article from http://www.sensorsmag.com/sensors-products/vision-optical/news/scanning-tech-helps-archaeologists-identify-rare-ghost-coin-21659
Scanning tech helps archaeologists identify rare ‘ghost coin’
http://www.sensorsmag.com/sensors-products/vision-optical/news/scanning-tech-helps-archaeologists-identify-rare-ghost-coin-21659
http://www.sensorsmag.com/rss.xml/category/94
News Room
Sensor industry news including contracts, awards, collaborations, acquisitions, and highlights of new measurement & sensor technology.

Sponsored By:

The Deeter Group

Deeter Electronics Ltd. | Deeter Electronics Inc | Deeter Group Asia | Deeter Group Germany | Deeter Group Corporate

Head & Registered Office:
Deeter Electronics Ltd.
Deeter House,
Valley Road,
Hughenden Valley,
Bucks. HP14 4LW

Tel: +44 (0) 1494 566 046
Fax: +44 (0) 1494 563 961
E-mail: [email protected]


The Deeter Group with products ranging from: , , , continuous , 4-20mA , , , , , , , a , wireless sensor and much more.

If you want a standard or a custom level switch, float switch, level sensor, or wireless sensor, contact us via email [email protected] or call us now on 01494 566 046.

Company Name: The Deeter Group

Location: Hughenden Valley, UK

Deeter Electronics USA
Deeter Electronics USA
Wireless sensor system | Radio telemetry | Level switches | Level sensors | Liquid level sensor | Float switches | Controllers & indicators | Industrial weighing equipment | Electronic circuit design & manufacture | Software design | Reed relays | Ultrasonic level flow sludge & proximity sensors | Proximity sensors & switches | Reed switches | Litz wire | Wago Terminals | Mechanical & magnetic floats | Boiler control |

Deeter Electronics UK
Wireless sensor system | Radio telemetry | Level switches | Level sensors | Liquid level sensor | Float switches | Controllers & indicators | Industrial weighing equipment | Electronic circuit design & manufacture | Software design | Reed relays | Ultrasonic level flow sludge & proximity sensors | Proximity sensors & switches | Reed switches | Litz wire | Wago Terminals | Mechanical & magnetic floats | Boiler control |

Deeter Electronics Europe
Wireless sensor system | Radio telemetry | Level switches | Level sensors | Liquid level sensor | Float switches | Controllers & indicators | Industrial weighing equipment | Electronic circuit design & manufacture | Software design | Ultrasonic level flow sludge & proximity sensors | Proximity sensors & switches | Reed switches | Litz wire | Wago Terminals | Mechanical & magnetic floats | Boiler control |

Sensor Magazine Websites
Explosion Proof Sensors UK | Explosion Proof Sensors | Water Level Measurement | Liquid Level Sensing | Liquid Level Measurement | Liquid Level Sensors UK | Liquid Level Sensors Europe | Wireless Sensors | Sensor Magazine | Industrial Sensors