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Lead from a Roman ship to be used for hunting neutrinos
Istituto Nazionale di Fisica Nucleare
Italy's National Institute of Nuclear Physics, at its laboratories in Gran Sasso, has received 120 lead bricks from an ancient Roman ship that sunk off of the coast of Sardinia 2,000 years ago. The ship's cargo was recovered 20 years ago, thanks to the contribution of the INFN, which at the time received 150 of these bricks. The INFN is now receiving additional bricks to complete the shield for the CUORE experiment, which is being conducted to study extremely rare events involving neutrinos. After 2,000 years under the sea, this lead will now be used to perform a task 1,400 metres under the Apennine mountain.
The National Laboratories of Gran Sasso (LNGS) of Italy's National Institute of Nuclear Physics (INFN) has received 120 2,000-year-old lead bricks from the National Archaeological Museum of Cagliari in Sardinia. The lead bricks, together with the ship that transported them, had remained in the sea for 2,000 years, which reduced by approximately 100,000 times the albeit very low original radioactivity represented by one of its radionuclides, lead-210. In fact, lead-210 has a half-life of 22 years, so that by now it has practically disappeared in the bricks.
It is precisely this characteristic that makes the lead extremely useful, in that it can be used to perfectly shield experiments of extreme precision, such as those conducted in the underground INFN laboratories in Gran Sasso. After 2,000 years under the sea, this lead will now be used to perform a task 1,400 metres under the Apennine mountain.
The part of the bricks that is "adorned" with inscriptions will be removed and conserved, whereas the remaining part will be cleaned of incrustations and melted to construct a shield for the international experiment CUORE, a study on neutrinos, whose discoveries could contribute to the knowledge of this elusive particle and of the evolution of the Universe.
Moreover, the INFN will perform important precise measures on the lead (and possibly on the copper found on the ship), to study the materials used in the Bronze Age.
The lead bricks were made available as the result of a 20-year collaboration involving the INFN, its facilities in Cagliari, and the Archaeological Superintendency of Cagliari, with the support of the General Direction of Antiquity. As part of this collaboration, 20 years ago the INFN contributed 300 million lira for the excavation of the ship and the recovery of its cargo.
The INFN would like to thank the superintendents Drs. Fulvia Lo Schiavo and Marco Minoja, as well as Doctor Donatella Salvi, for their collaboration.
"The commander of that ship would certainly never have imagined that the lead would be used 2,000 years later for something that had to do with the Universe and the stars" - comments INFN President Roberto Petronzio - "History and Science can now speak to one another across the centuries, thanks to the research in High-Energy Physics".
"This lead," - explains Professor Ettore Fiorini - "which is responsible for the CUORE experiment, represents an extremely important material for shielding the apparatuses used to conduct research on rare events - a material that must be totally free of radioactive contamination".
Lucia Votano, Director of the INFN laboratories in Gran Sasso, explains that "it's great and unique that the most advanced and innovative technologies must rely on archaeology and the technology of the ancient Romans. The ancient lead recoverd from the bottom of the sea will be essential for protecting the experiment from natural radioactivity, which could obscure the rare process of neutrinoless double beta decay".
For interviews and information:
Ettore Fiorini, spockperson CUORE
C. 339 4409404
Biagio Saitta, Director of Cagliari INFN
C. 320 9232339
Romeo Bassoli, Head of press office INFN
The Roman ship
Twenty years ago, an amateur scuba diver swimming off the coast of Oristano found a "navis oneraria magna", a 36-metre Roman ship dating back more than 2,000 years - between 80 and 50 BC - whose cargo consisted of a thousand lead forms. The ship had come from the area of the Sierra de Cartagena, in present-day Spain, and was probably headed towards Rome. In its hull, on a floor of copper, there were approximately 2000 lead bricks, together with various types of amphoras, four anchors, rigging, and everyday objects. The ship sank near the island that is today known as Mal di Ventre, a little more than one mile from the shore. Because the anchors were still in the prow and the bricks were in part still stacked, archaeologists believe that the ship sank without undergoing any sort of trauma and for reasons that are difficult to determine (perhaps intentionally sunk by the ship's commander himself). The relic and all that it contained remained under more than 30 metres of water on the sandy sea floor for 2000 years.
The lead bricks weigh about 33 kg each and are 46 centimetres long and nine centimetres thick. The weight corresponds to 100 Roman pounds, which by law was the maximum weight that could be carried by a slave.
The lead was a byproduct of silver extraction, yet in Roman times the market for lead was extremely important, given that it was widely used to produce everyday objects, such as water ducts, weights, and urns, and in the production of bronze coins and of the lead bullets for slings, a weapon used in battle by soldiers in ancient Rome. More than 200 of these bullets were found on the sunken ship.
Each brick is engraved with an indication of who manufactured it, for example, Caius and Marcus Pontilieni, sons of Marcus; Quintus Appius, son of Caius; and Carulius Hispalius. These were families of Italian origin who were involved in mining in Spain. In various areas in the Mediterranean, archaeologists have found materials produced by the Pontilieni family and Caulius Hispalius, whereas Quintus Appius was unknown. Ancient lead is particularly useful not only for Physics experiments but also for certain uses in Information Technology. For this reason, throughout the world, lead found in ancient sunken ships (from the European galleons of the 15th century onwards to the ancient ships that sailed the Mediterranean Sea) is sought after.
The CUORE experiment
The CUORE experiment at the INFN National Laboratories in Gran Sasso is seeking to discover an extremely rare process known as "neutrinoless double beta decay", which would allow researchers to not only directly measure the mass of neutrinos but also to determine whether or not they are Majorana particles (i.e., with coinciding particles and anti-particles).
The extremely important implications of this experiment regard the world of both the infinitesimally small (i.e., that of elementary subatomic particles) and the infinitely large (i.e., the Universe and its evolution).
The CUORE experiment represents the most recent and ambitious development of the technique of bolometer of tellurium dioxide, with which the INFN has over 20 years of experience.
Istituto Nazionale di Fisica Nucleare