A. J. Shortland, The use and origin of antimonate colorants in early Egyptian glass, vol.44, pp.517-530, 2002.

M. Tite, A. Shortland, and S. Paynter, The beginnings of vitreous materials in the Near East and Egypt, Acc. Chem. Res, vol.35, pp.585-593, 2002.

W. E. Turner and H. P. Rooksby, A study of the opalising agents in ancient opal glasses throughout three thousand four hundred years, Glastech. Ber, vol.8, pp.17-28, 1959.

F. J. Rutten, D. Briggs, J. Henderson, and M. J. Roe, The application of time-of-flight secondary ion mass spectrometry (Tof-SIMS) to the characterization of opaque ancient glasses, vol.51, pp.966-986, 2009.

C. N. Duckworth, J. Henderson, F. J. Rutten, and K. Nikita, Opacifiers in Late Bronze Age glasses: The use of ToF-SIMS to identify raw ingredients and production techniques, J. Archaeol. Sci, vol.39, pp.2143-2152, 2012.

F. Licenziati and T. Calligaro, Study of mosaic glass tesserae from Delos, Greece using a combination of portable µ-Raman and X-ray fluorescence spectrometry, J. Archaeol. Sci. Rep, vol.7, pp.640-649, 2016.

N. Venclová, ?. K?í?ová, V. Dillingerová, and T. Vaculovi?, Hellenistic cast monochrome glass vessels from Staré Hradisko, 2nd-1st cent, BCE. J. Archaeol. Sci. Rep, vol.22, pp.540-549, 2018.

C. Boschetti, J. Henderson, J. Evans, and C. Leonelli, Mosaic tesserae from Italy and the production of Mediterranean coloured glass (4rd century BCE-4th century CE). Part I: Chemical composition and technology, J. Archaeol. Sci. Rep, vol.7, pp.303-311, 2016.

C. Boschetti, V. Mantovani, and C. Leonelli, Glass coloring and recycling in Late Antiquity: A new case study from Aquileia (Italy), J. Glass Stud, vol.58, pp.69-86, 2016.

E. Gliozzo, A. Santagostino-barbone, M. Turchiano, I. Memmi, and G. Volpe, The coloured tesserae decorating the vaults of the Faragola balneum, vol.54, pp.311-331, 2012.

J. Henderson, The raw materials of early glass production, Oxf. J. Archaeol, vol.4, pp.267-291, 1985.

S. Lahlil, I. Biron, M. Cotte, and J. Susini, New insight on the in situ crystallization of calcium antimonate opacified glass during the Roman period, Appl. Phys. A Mater. Sci. Process, vol.100, pp.683-692, 2010.

S. Lahlil, I. Biron, M. Cotte, J. Susini, and N. Menguy, Synthesis of calcium antimonate nano-crystals by the 18th dynasty Egyptian glassmakers, Appl. Phys. A Mater. Sci. Process, vol.98, pp.1-8, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00646200

S. Lahlil, I. Biron, L. Galoisy, and G. Morin, Rediscovering ancient glass technologies through the examination of opacifier crystals, Appl. Phys. A Mater. Sci. Process, vol.92, pp.109-116, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00648141

S. Maltoni, A. Silvestri, A. Marcante, and G. Molin, The transition from Roman to Late Antique glass: New insights from the Domus of Tito Macro in Aquileia (Italy), J. Archaeol. Sci, vol.73, pp.1-16, 2016.

E. Neri, M. Verita, and A. Conventi, Glass mosaic tesserae from the 5th-6th century baptistery of

C. Entwistle and L. James, , pp.1-10, 2013.

N. Schibille, E. Neri, C. Ebanista, M. R. Ammar, and F. Bisconti, Something old, something new: The late antique mosaics from the catacomb of San Gennaro (Naples), J. Archaeol. Sci. Rep, vol.20, pp.411-422, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01916596

A. Silvestri, S. Tonietto, G. Molin, and P. Guerriero, Archaeometric characterisation of tesserae with antimony-or phosphorus-based opacifiers, J. Archaeol. Sci, vol.39, pp.2177-2190, 2012.

M. T. Wypyski and L. Becker, Glassmaking technology at Antioch: Evidence from the Atrium House Triclinium and later mosaics, The Arts of Antioch-Art Historical and Scientific Approaches to Roman Mosaics

L. Becker and C. Kondoleon, Worcester Art Museum, pp.115-175, 2005.

E. Gliozzo, A. S. Barbone, F. ;-d'acapito, M. Turchiano, I. T. Memmi et al., A Multi-Analytical Study of the Green, Marbled (Green and Yellow), Blue and Blackish Glass Slabs, vol.52, pp.389-415, 2010.

E. Tesser, M. Verità, L. Lazzarini, R. Falcone, L. Saguì et al., Glass in imitation of exotic marbles: An analytical investigation of 2 nd -century AD Roman sectilia from the Gorga collection, J. Cult. Herit, 2019.

M. Tite, T. Pradell, and A. Shortland, Discovery, production and use of tin-based opacifiers in glasses, enamels and glazes from the late iron age onwards: A reassessment, vol.50, pp.67-84, 2008.

M. Uboldi and M. Verita, Scientific analyses of glasses from Late Antique and Early Medieval archeological sites in Northern Italy, J. Glass Stud, vol.45, pp.115-137, 2003.

E. Neri, M. Jackson, M. O'hea, T. Gregory, M. Blet-lemarquand et al., Analyses of glass tesserae from Kilise Tepe: New insights into an early Byzantine production technology, J. Archaeol. Sci. Rep, vol.11, pp.600-612, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02025444

N. Schibille, B. Gratuze, E. Ollivier, and É. Blondeau, Chronology of early Islamic glass compositions from Egypt, J. Archaeol. Sci, vol.104, pp.10-18, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02022546

M. Tite, O. Watson, T. Pradell, M. Matin, G. Molina et al., Revisiting the beginnings of tin-opacified Islamic glazes, J. Archaeol. Sci, vol.57, pp.80-91, 2015.

C. Moretti, C. S. Salerno, and S. T. Ferroni, Ricette Vetrarie Muranesi: Gasparo Brunoro e il Manoscritto di Danzica

N. Florence, , 2004.

I. N. Wainwright, J. M. Taylor, and R. D. Harley, Lead antimonate yellow. In Artists' Pigments: A Handbook of Their History and Characteristics; National Gallery of Art, vol.1, pp.219-254, 1986.

I. C. Freestone, Laboratory studies of the Portland Vase, J. Glass Stud, vol.32, pp.103-107, 1990.

I. C. Freestone and C. Stapleton, Composition technology and production of coloured glasses from Roman mosaic vessels, Glass of the Roman World

J. Bayley, I. C. Freestone, and C. Jackson, , pp.61-76, 2015.

V. Gedzevi?i?t?, N. Welter, U. Schüssler, and C. Weiss, Chemical composition and colouring agents of Roman mosaic and millefiori glass, studied by electron microprobe analysis and Raman microspectroscopy, Archaeol. Anthropol. Sci, vol.1, pp.15-29, 2009.

S. Paynter and C. Jackson, Clarity and brilliance: Antimony in colourless natron glass explored using Roman glass found in Britain, Archaeol. Anthropol. Sci, pp.1-19, 2018.

P. Roberts, W. Gudenrath, V. Tatton-brown, and D. Whitehouse, Roman Cameo Glass in the British Museum

Y. Sablerolles, J. Henderson, and W. Dijkman, Early medieval glass bead-making in Maastricht (Jodenstraat 30), The Netherlands. An archaeological and scientific investigation, Perlen: Archäologie

, Akten des Internationalen Perlensymposiums in Mannheim vom 11. bis 14, pp.293-314, 1994.

M. Verità, Perle vitree dalle necropoli longobarde in Italia. Natura dei materiali e tecniche di lavorazione

. V&p-vita-e-pensiero, , pp.355-378, 2012.

F. Drünert, E. Palamara, N. Zacharias, L. Wondraczek, and D. Möncke, Ancient Roman nano-technology: Insight into the manufacture of mosaic tesserae opacified by calcium antimonate, J. Eur. Ceram. Soc, vol.38, pp.4799-4805, 2018.

N. Schibille, C. Boschetti, M. Á. Valero-tévar, J. De-juan-ares, and E. Veron, The colour palette of the mosaics in the Roman villa of Noheda (Spain), vol.2020, p.272

F. Montanari, P. Miselli, C. Leonelli, C. Boschetti, J. Henderson et al., Calibration and use of the heating microscope for indirect evaluation of the viscosity and meltability of archeological glasses, Int. J. Appl. Glass Sci, vol.5, pp.161-177, 2014.

J. D. Jobson, Applied Multivariate Data Analysis Volume I: Regression and Experimental Design, 1991.

A. F. Gualtieri, G. B. Andreozzi, C. Giacobbe, G. Lusvardi, and C. Viti, Structural and spectroscopic characterization of anorthite synthesized from secondary raw materials. Periodico di Mineralogia, vol.80, pp.231-245, 2011.

Q. Zheng, Y. Zhang, M. Montazerian, O. Gulbiten, J. C. Mauro et al., Understanding Glass through Differential Scanning Calorimetry, Chem. Rev, vol.119, pp.7848-7939, 2019.

C. Lara, M. Pascual, and A. Duran, Glass-forming ability, sinterability and thermal properties in the systems RO-BaO-SiO2 (R = Mg, Zn), J. Non-Cryst. Solids, vol.348, pp.149-155, 2004.

F. E. Wiesenberg and . Archäologie, Römische Glasöfen: Rekonstruktion und Betrieb einer Glashütte nach römischem Vorbild in der Villa Borg, p.25, 2013.

J. E. Shelby, Introduction to Glass Science and Technology, 2005.

M. Mee, B. C. Davies, R. G. Orman, M. F. Thomas, and D. Holland, Antimony and silicon environments in antimony silicate glasses, J. Solid State Chem, vol.183, pp.1925-1934, 2010.

K. Nakagawa and T. Izumitani, Metastable phase separation and crystallization of Li2O ? Al2O3 ? SiO3 glasses: Determination of miscibility gap from the lattice parameters of precipitated ?-quartz solid solution, J. Non-Cryst. Solids, vol.7, pp.168-180, 1972.

M. B. Boisen, . Jr, G. V. Gibbs, and M. S. Bukowinski, Framework silica structures generated using simulated annealing with a potential energy function based on an H 6 Si 2 O 7 molecule, Phys. Chem. Miner, vol.21, pp.269-284, 1994.

W. Vogel, . Glass, and . Chemistry,

, This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution, CC BY) license, 1994.