[1] Emami M.A., Trettin R., "Phase generating processes in ancient ceramic matrices through microstructure investigation with high resolution microscopy methods", Journal of Advanced Microscopy Research 11(5) (2010) 181-189.
[2] Trindade M.J., Dias M.I., Coroado J., Rocha F., "Mineralogical transformations of calcareous rich clays with firing: A comparative study between calcite and dolomite rich clays from Algarve, Portugal" Applied Clay Science 42 (2009) 345–355.
[3] Maggetti M., "Phase analysis and its significance for technology and origin, in Archaeological ceramics", J.S. Olin, Editor, Smithsonian Institution: Washington (1982) 121-133.
[4] Rathossi C., Pontikes Y., Tsolis-Katagas P., "Mineralogical differences between ancient sherds and experimental ceramics: Indices for firnig conditions and post-burial alteration", in Bulletin of the Geological Society of Greece (2010).
[5] Maniatis Y., Tite M.S., "Technological examination of Neolithic-Bronze Age pottery from Central and Southeast Europe and from the Near East" Journal of Archaeological Science 8 (1981) 59-76.
[6] Duminuco P., Messiga B., Riccardi M.P., "Firing process of natural clays. Some microtextures and related phase compositions" Thermochimica Acta. 321 (1998) 185-190.
[7] Riccardi M.P., Messiga B., Duminuco P., "An approach to the dynamics of clay firing", Applied Clay Science 15(3-4) (1999) 393-409.
[8] Garrigos J.B.I., Kilikoglou V., Day P.M., "Chemical and mineralogical alteration of ceramics from a late Bronze Age at Kommos, Crete: The effect on the formation of a reference group", Archaeometry 43(3) (2001) 349-371.
[9] Da Costa M.L., Kern D.C., Eleotério Pinto A.H., da Trindade Souza J.R., "The ceramic artifacts in archaeological black earth (terra preta) from lower Amazon region, Brazil: Mineralogy", Acta Amazonica 34(2) (2004) 165 – 178.
[10] Tykot R.H., "Scientific methods and applications to archaeological provenance studies", in Proceedings of the International School of Physics “Enrico Fermi”, Amsterdam: IOS Press (2004).
[11] Belfiore C.M., Day P.M., Hein A., Kilikoglou V., La Rosa V., Mazzoleni P., Pezzino A., "Petrographic and chemical characterization of pottery production of the late Minoani kiln at Haghia Triada, Crete", Archaeometry 49(4) (2007) 621–653.
[12] Martineau R., Walter-Siminnet A. V. Grobety B., Buatier M., "Clay resources and technical choices for Neolithic pottery (Chalain, Jura, France): Chemical, Mineralogical and Grain-size analysis", Archaeometry 49( 1) (2007) 23–52.
[13] De Bonis A., Grifa C., Cultrone G., De Vita P., Langella A., Morra V., "Raw Materials for archaeological pottery from the Campania Region of Italy: A petrophysical characterization", Geoarchaeology: An International Journal 28 (2013) 478–503.
[14] Cultrone G., Rodriguez-Navarro C., Sebastian E., Cazalla O., De La Torre M.J., "Carbonate and silicate phase reactions during ceramic firing", European Journal of Mineral 13 (2001) 621-634.
[15] Rathossi C., Pontikes Y., "Effect of firing temperature and atmosphere on ceramics made of NW Peloponnese clay sediments. Part I: Reaction paths, crystalline phases, microstructure and colour", Journal of the European Ceramic Society 30 (2010) 1841–1851.
[16] Moroni B., Conti C., "Technological features of Renaissance pottery from Deruta (Umbria, Italy): An experimental study", Applied Clay Science 33 (2006) 230–246.
[17] Emami S.M.A., Kowald T., Trettin R., "Mineralogical and chemical investigation on the recrystallization process during sintering in phase-interface areas in ancient ceramic matrices", Materials and Manufacturing Processes 24 (2009) 934–941.
[18] Serra M.F., Conconi M.S., Suarez G., Agietti E.F., Rendtorff N. M., "Firing transformations of an argentinean calcareous commercial clay", Cerâmica 59 (2013) 254-261.
[19] Artioli G., "Scientific methods and cultural heritage", New York: Oxford University Press (2010).
[20] Reedy C. L., "Thin section petrography of stone and ceramic cultural materials", London: Archetype Publication (2008).
[21] Noll W., "Alte Keramiken und ihre Pigmente", Stuttgart: Studien zu Material und Technologie (1991).
[22] Munsell A.H., "Munsell Soil Color Chart", Munsell Color (2000).
[23] Maniatis Y., Tite M., "Technological examination of neolithic-bronzeage pottery from central and southeast Europe and from the Near East", Journal of Archaeological Science 8(1) (1981) 59–76.
[24] Okrusch M., Matthes S., "Mineralogie: Eine Einführung in die spezielle Mineralogie, Petrologie und Lagerstättenkunde", Berlin: Springer Verlag (2005).
[25] Heimann R.B., Maggetti M., "Experiments on simulated burial of calcareous Terra Sigillata (Mineralogical changes), preliminary results", British Museum Occasional Paper 19 (1981) 163-177.
[26] Emami S. M., "Mineralogisch-Chemisch Untersuchungen zur Archaometrie Elamischer Keramiken aus Khouzestan, Iran. Dissertation zur Erlangung des Geades eines Doktors der Naturwissenschaften, Siegen, Germany: Univenersitat Siegen (2008).
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