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Ceramic findings from the archaeological siteat Aiano-Torraccia di Chiusi (Siena, Italy):a multi-analytical approach

Bibliographic reference Cavalieri, Marco ; et. al. Ceramic findings from the archaeological siteat Aiano-Torraccia di Chiusi (Siena, Italy):a multi-analytical approach. In: Archaeological and Anthropological Sciences, Vol. 3, p. 1-18 (2011)
Permanent URL http://hdl.handle.net/2078.1/90448
  1. Cavalieri M (2009a) “Il pavimento in cementizio della villa tardoantica di Aiano-Torraccia di Chiusi (Siena). Primi dati su decorazione musiva, tecnica esecutiva e orizzonte cronologico”. In: Atti del XV Colloquio dell’AISCOM, Aquileia, 7–4 February 2009, pp 515–526
  2. Cavalieri M (2009b) “Vivere in Val d’Elsa tra tarda Antichità e alto Medioevo. La villa romana di Aiano-Torraccia di Chiusi (Siena, Italia)”. The Journal of Fasti Online AIAC. Available at www.fastionline.org/docs/FOLDER-it-2009-156.pdf
  3. Cavalieri M, Boldrini E (2008) “La villa tardoantica di Aiano-Torraccia di Chiusi (San Gimignano, Siena-Italia) I materiali ceramici: primi dati archeologici ed archeometrici”. In: 3rd international conference on late Roman coarse wares, cooking wares and amphorae in the Mediterranean: archaeology and archaeometry. Comparison between Western and Eastern Mediterranean, Parma/Pisa, 26–30 March 2008
  4. Cavalieri Marco, Giumlia-Mair Alessandra, Lombardic Glassworking in Tuscany, 10.1080/10426910902987119
  5. Chourpa Igor, Douziech-Eyrolles Laurence, Ngaboni-Okassa Lazare, Fouquenet Jean-François, Cohen-Jonathan Simone, Soucé Martin, Marchais Hervé, Dubois Pierre, Molecular composition of iron oxide nanoparticles, precursors for magnetic drug targeting, as characterized by confocal Raman microspectroscopy, 10.1039/b419004a
  6. Colomban P., Cherifi S., Despert G., Raman identification of corrosion products on automotive galvanized steel sheets, 10.1002/jrs.1927
  7. Cuomo di Caprio N (2007) Ceramica in archeologia 2. L’Erma di Bretschneider, Rome
  8. De Benedetto G.E., Laviano R., Sabbatini L., Zambonin P.G., Infrared spectroscopy in the mineralogical characterization of ancient pottery, 10.1016/s1296-2074(02)01178-0
  9. Fabbri B (1998) “The problem of defining the firing temperature of ceramic artefacts”. In: Proceedings of XIII Union Internationale des Sciences Préhistoriques et Protohistoriques, Forlì (Italy), September 1996, 1:207–214
  10. Farmer VC (ed) (1974) Infrared spectra of minerals. Mineralogical Society, London
  11. Franzini M, Leoni L, Saitta M (1975) Revisione di una metodologia analitica per fluorescenza-X, basata sulla correzione completa degli effetti di matrice. Rendiconti Società Italiana di Mineralogia e Petrologia 31:365–378
  12. Fumo A (2010) “Le ceramiche rivestite di rosso della villa di Aiano-Torraccia di Chiusi (San Gimignano, Siena): uno studio archeologico e archeometrico”. The Journal of Fasti Online AIAC. Available at http://www.fastionline.org/docs/FOLDER-it-2010-178.pdf
  13. Hayes JW (1972) Late Roman Pottery. British School at Rome, London
  14. Leon Y., Lofrumento C., Zoppi A., Carles R., Castellucci E. M., Sciau Ph., Micro-Raman investigation of terra sigillata slips: a comparative study of central Italian and southern Gaul productions, 10.1002/jrs.2678
  15. Maggetti M (1982) Phase analysis and its significance for technology and origin. In: Franklin AD, Olin JS (eds) Archaeological Ceramics. Smithsonian Institution Press, Washington, pp 121–133
  16. Maggetti M (1994) “Mineralogical and petrographical methods for the study of ancient pottery” In: Burragato F, Grubessi O, Lazzarini L (eds) 1st European workshop on archaeological ceramics, Rome, 10–12 October 1991, pp. 23–35
  17. PECCHIONI E., CANTISANI E., PALLECCHI P., FRATINI F., BUCCIANTI A., PANDELI E., RESCIC S., CONTICELLI S., CHARACTERIZATION OF THE AMPHORAE, STONE BALLAST AND STOWAGE MATERIALS OF THE SHIPS FROM THE ARCHAEOLOGICAL SITE OF PISA?SAN ROSSORE, ITALY: INFERENCES ON THEIR PROVENANCE AND POSSIBLE TRADING ROUTES*, 10.1111/j.1475-4754.2007.00285.x
  18. Pérez-Robles F., García-Rodríguez F. J., Jiménez-Sandoval S., González-Hernández J., Raman study of copper and iron oxide particles embedded in an SiO2 matrix, 10.1002/(sici)1097-4555(199912)30:12<1099::aid-jrs490>3.0.co;2-0
  19. Sartoratto P.P.C., Caiado K.L., Pedroza R.C., da Silva S.W., Morais P.C., The thermal stability of maghemite-silica nanocomposites: An investigation using X-ray diffraction and Raman spectroscopy, 10.1016/j.jallcom.2006.08.208
  20. Tite M. S., 10.1023/a:1021947302609
  21. Tronc E., Chanéac C., Jolivet J.P., Structural and Magnetic Characterization ofε-Fe2O3, 10.1006/jssc.1998.7817
  22. Turbanti Memmi I (2004) Pottery production and distribution: the contribution of mineralogical and petrographical methodologies in Italy. State of the art and future developments. Periodico di Mineralogia 73:239–257
  23. Zoppi A., Lofrumento C., Castellucci E. M., Sciau Ph., Al-for-Fe substitution in hematite: the effect of low Al concentrations in the Raman spectrum of Fe2O3, 10.1002/jrs.1811