ART AND SCIENCE OF GLASS (bangles including)
Baert, K., Meulebroeck, W., Wouters, H., Cosyns, P., Nys, K., Thienpont, H., Terryn H. 2011. ‘Using Raman spectroscopy as a tool for the detection of iron in glass,’ Journal of Raman Spectroscopy 42(9), 1789-1795
Baxter, M.J., Cool, H.E.M., Heyworth, M.P., Jackson, C. 1995. ‘Compositional variability in colourless Roman vessel glass,’ Archaeometry 37(1), 129-141.
Baxter, M.J., Cool, H.E.M., and Jackson, C. 2005. ‘Further studies in the compositional variability of colourless Roman-British vessel glass,’ Archaeometry 47, 47-68.
Bingham, P.A., Jackson, C.M. 2008. ‘Roman blue-green bottle glass: chemical-optical analysis and high temperature viscosity modelling,’ Journal of Archaeological Science 35, 302-309.
Cagno, S., Cosyns, P. 2008. ‘The EPMA and LA-ICP-MS-analyses of late La Tène glass bracelets from Odijk, Tiel and Meteren (ACVU), Anvers/Bruxelles,’ UA-MiTAC & VUB-SKAR, [rapport interne]
Cagno, S., Cosyns, P. 2009a. ‘Compositional analysis on the obsidian vessel fragment R1610 in the Royal Museums of Art and History (KMKG-MRAH) by using portable-XRF, Internal report,’ UA-MiTAC & VUB-SKAR, Antwerp-Brussels.
Cagno, S., Cosyns, P. 2009b. ‘μ-XRF analyses of Roman black glass objects and a vitrum obsianum piece in the Royal Museums of Art and History (KMKG-MRAH) by using portable-XRF, Internal report,’ UA-MiTAC & VUB-SKAR, Antwerp-Brussels.
Cosyns, P., Cagno, S., Janssens, K., Nys, K. 2012. ‘The benefit of using chemical analysis in understanding archaeological glass. Case-study: Roman black glass’, in H. Thienpont, W. Meulebroeck, K. Nys, D. Vanclooster (eds). Proceedings of SPIE 8422. Integrated Approaches to the Study of Historical Glass doi:10.1117/12.975682
Cosyns, P., Cagno, S., Janssens, K., Nys, K. 2014. ‘Un verre méditerranéen pour la production de bracelets laténienne en Europe septentrionale. Résultats d’analyses SEM-EDX et LA-ICP-MS de bracelets en verre La Tène tardif de Odijk, Tiel et Geldermalseren-Hondsgemet,’ Bulletin de l'Association Française pour l’Archéologie du Verre 2014, 13-20.
Degryse, P. (ed.) 2014. Glass-making in the Greco-Roman world. Results of the ARCHGLASS project. Leuven.
Degryse, P., Schneider, J. 2008. ‘Pliny the Elder and Sr-Nd isotopes: tracing the provenance of raw materials for Roman glass production,’ Journal of Archaeological Science 35, 1993-2000
Degryse, P., Shortland, A. 2015. ‘Trace elements in provenancing raw materials for Roman glass production,’ Archaeometry 56(1), 116-136
Degryse, P., Schneider, J. 2009. ‘Neodymium and strontium isotopes in the provenance determination of primary natron glass production,’ In P. Degryse, J. Henderson, G. Hodgins (eds) Isotopes in vitreous materials. Leuven: Leuven University Press, 53-72
Degryse, P., Schneider, J., Lauwers, V., Waelkens, M., Muchez, P. 2009. ‘Radiogenic isotopes in the provenance determination of raw materials: a case of lead and glass recycling at Sagalassos (SW Turkey),’ Journal of Nordic Archaeological Science 16, 15-23.
Fernández-Navarro, J.-M., and Villegas M.-A. 2013. ‘What is glass? An introduction to the physics and chemistry of silicate glasses,’ in K.H.A. Janssens (ed.) Modern Methods for Analysing Archaeological and Historical Glass. Chichester, Wiley, 1-22.
Foster, H. and Jackson, C.M. 2009. ‘The composition of ‘naturally coloured’ late Roman vessel glass from Britain and the implications for models of glass production and supply,’ Journal of Archaeological Science 36, 189-204.
Foster, H. and Jackson, CM. 2010. ‘The composition of late Romano-British colourless vessel glass: glass production and consumption,’ Journal of Archaeological Science 37 3068-3080.
Freestone, I.C. 2005. ‘The provenance of ancient glass through compositional analysis,’ Materials Research Society, Symposium Proceedings 852, 1-14.
Jackson, C. and Foster, H. 2015. ‘Provenance studies and Roman glass,’ in J. Bayley, I. Freestone and C. Jackson (eds) Glass of the Roman world. Oxford, Oxbow, 44-57.
Jackson, C., Foster, H. 2014. ‘The last Roman glass in Britain: recycling at the periphery of the empire,’ in D. Keller, J. Price and C. Jackson (eds) Neighbours and successors of Rome. Traditions of Glass Production and Use in Europe and the Middle East in the Later 1st Millennium AD. Oxford, Oxbow, 6-14.
Jackson, C.M., Hunter, J.R., Warren, S.E. and Cool, H.E.M. 1991. ‘The analysis of blue-green glass and glassy waste from two Romano-British glass working sites,’ in E. Pernicka and G.A. Wagner (eds) Archaeometry’ 90. Basel, Birkhäuser, 295-304.
Janssens, K.H.A. (ed.) 2013. Modern Methods for Analysing Archaeological and Historical Glass. Chichester, Wiley.
Gratuze, B. 2001. Etude de la composition de bracelets protohistoriques en verre du Museo Civico ″Federico de Rocco" (S. Vito al Tagliamento, Italie), internal report. CNRS Institut de Recherche sur les Archéomatériaux, Orléans.
Green, L.R., Hart, F.A. 1987. ‘Colour and chemical composition in ancient glass: an examination of some Roman and Wealden glass by means of ultraviolet-visible-infra-red spectrometry and electron microprobe analysis,’ Journal of Archaeological Science 14, 271-282.
Hartmann, G., Kappel, I., Grote, K., Arndt, B. 1997. ‘Chemistry and technology of prehistoric glass from Lower Saxony and Hesse,’ Journal of Archaeological Science 24, 547-559.
Henderson, J. 1985. ‘The raw materials of early glass production,’ Oxford Journal of Archaeology 4 (3), 267-291.
Henderson, J. 2013. The Science and Archaeology of Materials: An Investigation of Inorganic Materials. London, Routledge.
Huisman, D.J., de Groot, T., Pols, S., Van Os, B.J.H. and Degryse, P. 2009. ‘Compositional variation in Roman colourless glass objects from the Bocholz burial (the Netherlands),’ Archaeometry 51, 413-439.
Knoll, H., Locher, A., Rottländer, R.C.A., Schaber, O., Scholze, H., Schulze, G., Strunk-Lichtenberg, G., Ullrich, D. 1979. ‘Glasherstellung bei Plinius dem Älteren,’ Glastechniche Berichte 52, 265-270.
Meulebroeck, W., Cosyns, P., Baert, K., Wouters, H., Cagno, S., Janssens, K., Terryn, H., Nys, K., Thienpont, H. 2011. ‘Optical spectroscopy as a rapid and low-cost tool for the first-line analysis of glass artefacts: a step-by-step plan for Roman green glass,’ Journal of Archaeological Science 38(9), 2387-2398.
Nenna, M.-D. 2014. ‘Egyptian glass abroad: HIMT glass and its markets,’ D. Keller, J. Price and C. Jackson (eds) Neighbours and successors of Rome. Traditions of Glass Production and Use in Europe and the Middle East in the Later 1st Millennium AD. Oxford, Oxbow, 177-193.
Paynter, S. 2006. ‘Analyses of colourless Roman glass from Binchester, county Durham,’ Journal of Archaeological Science 33, 1037-1057.
Roymans, N., Huisman, H., van der Laan, J., van Os, B. 2014. ‘La Tène glass armrings in Europe. Interregional connectivity and local identity construction,’ Archäologisches Korrespondenzblatt 44(2), 215-228
Silvestri, A., Molin, G. and Salviulo, G. 2006. ‘Sand for Roman glass production: an experimental and philological study on source of supply,’ Archaeometry 48 (3), 415-432.
Shugar, A., Rehren, T. 2002. ‘Formation and composition of glass as a function of firing temperature,’ Glass Technology 43, 145-150.
Turner, W.E.S. 1956a. ‘Studies in ancient glasses and glassmaking processes, part III; the chronology of the glassmaking constituents,’ Journal of the Society of Glass Technology 40, 39-40.
Turner, W.E.S. 1956b. ‘Studies in ancient glasses and glassmaking processes, part IV; the chemical composition of ancient glasses,’ Journal of the Society of Glass Technology 40, 162-186.
Turner, W.E.S. 1956c. ‘Studies in ancient glasses and glassmaking processes, part V; raw materials and melting processes,’ Journal of the Society of Glass Technology 40, 277-300.
Van der Linden, V., Cosyns, P., Schalm, O., Cagno, S., Nys, K., Janssens, K., Nowak, A., Wagner, B., Bulska, E. 2009. ‘Deeply coloured and black glass in the northern provinces of the Roman Empire: differences and similarities in chemical composition before and after 150 AD,’ Archaeometry 51(5), 822-844.
Velde, B. 2013. ‘Glass composition over several millennia in the western world,’ in K.H.A. Janssens (ed.) Modern Methods for Analysing Archaeological and Historical Glass. Chichester, Wiley, 67-78.
Wedepohl, K.H. and Baumann, A. 2000. ‘The use of marine molluskan shells for Roman glass and local raw glass production in the Eifel area (western Germany),’ Naturwissenschaften 87, 129-132.
Baert, K., Meulebroeck, W., Wouters, H., Cosyns, P., Nys, K., Thienpont, H., Terryn H. 2011. ‘Using Raman spectroscopy as a tool for the detection of iron in glass,’ Journal of Raman Spectroscopy 42(9), 1789-1795
Baxter, M.J., Cool, H.E.M., Heyworth, M.P., Jackson, C. 1995. ‘Compositional variability in colourless Roman vessel glass,’ Archaeometry 37(1), 129-141.
Baxter, M.J., Cool, H.E.M., and Jackson, C. 2005. ‘Further studies in the compositional variability of colourless Roman-British vessel glass,’ Archaeometry 47, 47-68.
Bingham, P.A., Jackson, C.M. 2008. ‘Roman blue-green bottle glass: chemical-optical analysis and high temperature viscosity modelling,’ Journal of Archaeological Science 35, 302-309.
Cagno, S., Cosyns, P. 2008. ‘The EPMA and LA-ICP-MS-analyses of late La Tène glass bracelets from Odijk, Tiel and Meteren (ACVU), Anvers/Bruxelles,’ UA-MiTAC & VUB-SKAR, [rapport interne]
Cagno, S., Cosyns, P. 2009a. ‘Compositional analysis on the obsidian vessel fragment R1610 in the Royal Museums of Art and History (KMKG-MRAH) by using portable-XRF, Internal report,’ UA-MiTAC & VUB-SKAR, Antwerp-Brussels.
Cagno, S., Cosyns, P. 2009b. ‘μ-XRF analyses of Roman black glass objects and a vitrum obsianum piece in the Royal Museums of Art and History (KMKG-MRAH) by using portable-XRF, Internal report,’ UA-MiTAC & VUB-SKAR, Antwerp-Brussels.
Cosyns, P., Cagno, S., Janssens, K., Nys, K. 2012. ‘The benefit of using chemical analysis in understanding archaeological glass. Case-study: Roman black glass’, in H. Thienpont, W. Meulebroeck, K. Nys, D. Vanclooster (eds). Proceedings of SPIE 8422. Integrated Approaches to the Study of Historical Glass doi:10.1117/12.975682
Cosyns, P., Cagno, S., Janssens, K., Nys, K. 2014. ‘Un verre méditerranéen pour la production de bracelets laténienne en Europe septentrionale. Résultats d’analyses SEM-EDX et LA-ICP-MS de bracelets en verre La Tène tardif de Odijk, Tiel et Geldermalseren-Hondsgemet,’ Bulletin de l'Association Française pour l’Archéologie du Verre 2014, 13-20.
Degryse, P. (ed.) 2014. Glass-making in the Greco-Roman world. Results of the ARCHGLASS project. Leuven.
Degryse, P., Schneider, J. 2008. ‘Pliny the Elder and Sr-Nd isotopes: tracing the provenance of raw materials for Roman glass production,’ Journal of Archaeological Science 35, 1993-2000
Degryse, P., Shortland, A. 2015. ‘Trace elements in provenancing raw materials for Roman glass production,’ Archaeometry 56(1), 116-136
Degryse, P., Schneider, J. 2009. ‘Neodymium and strontium isotopes in the provenance determination of primary natron glass production,’ In P. Degryse, J. Henderson, G. Hodgins (eds) Isotopes in vitreous materials. Leuven: Leuven University Press, 53-72
Degryse, P., Schneider, J., Lauwers, V., Waelkens, M., Muchez, P. 2009. ‘Radiogenic isotopes in the provenance determination of raw materials: a case of lead and glass recycling at Sagalassos (SW Turkey),’ Journal of Nordic Archaeological Science 16, 15-23.
Fernández-Navarro, J.-M., and Villegas M.-A. 2013. ‘What is glass? An introduction to the physics and chemistry of silicate glasses,’ in K.H.A. Janssens (ed.) Modern Methods for Analysing Archaeological and Historical Glass. Chichester, Wiley, 1-22.
Foster, H. and Jackson, C.M. 2009. ‘The composition of ‘naturally coloured’ late Roman vessel glass from Britain and the implications for models of glass production and supply,’ Journal of Archaeological Science 36, 189-204.
Foster, H. and Jackson, CM. 2010. ‘The composition of late Romano-British colourless vessel glass: glass production and consumption,’ Journal of Archaeological Science 37 3068-3080.
Freestone, I.C. 2005. ‘The provenance of ancient glass through compositional analysis,’ Materials Research Society, Symposium Proceedings 852, 1-14.
Jackson, C. and Foster, H. 2015. ‘Provenance studies and Roman glass,’ in J. Bayley, I. Freestone and C. Jackson (eds) Glass of the Roman world. Oxford, Oxbow, 44-57.
Jackson, C., Foster, H. 2014. ‘The last Roman glass in Britain: recycling at the periphery of the empire,’ in D. Keller, J. Price and C. Jackson (eds) Neighbours and successors of Rome. Traditions of Glass Production and Use in Europe and the Middle East in the Later 1st Millennium AD. Oxford, Oxbow, 6-14.
Jackson, C.M., Hunter, J.R., Warren, S.E. and Cool, H.E.M. 1991. ‘The analysis of blue-green glass and glassy waste from two Romano-British glass working sites,’ in E. Pernicka and G.A. Wagner (eds) Archaeometry’ 90. Basel, Birkhäuser, 295-304.
Janssens, K.H.A. (ed.) 2013. Modern Methods for Analysing Archaeological and Historical Glass. Chichester, Wiley.
Gratuze, B. 2001. Etude de la composition de bracelets protohistoriques en verre du Museo Civico ″Federico de Rocco" (S. Vito al Tagliamento, Italie), internal report. CNRS Institut de Recherche sur les Archéomatériaux, Orléans.
Green, L.R., Hart, F.A. 1987. ‘Colour and chemical composition in ancient glass: an examination of some Roman and Wealden glass by means of ultraviolet-visible-infra-red spectrometry and electron microprobe analysis,’ Journal of Archaeological Science 14, 271-282.
Hartmann, G., Kappel, I., Grote, K., Arndt, B. 1997. ‘Chemistry and technology of prehistoric glass from Lower Saxony and Hesse,’ Journal of Archaeological Science 24, 547-559.
Henderson, J. 1985. ‘The raw materials of early glass production,’ Oxford Journal of Archaeology 4 (3), 267-291.
Henderson, J. 2013. The Science and Archaeology of Materials: An Investigation of Inorganic Materials. London, Routledge.
Huisman, D.J., de Groot, T., Pols, S., Van Os, B.J.H. and Degryse, P. 2009. ‘Compositional variation in Roman colourless glass objects from the Bocholz burial (the Netherlands),’ Archaeometry 51, 413-439.
Knoll, H., Locher, A., Rottländer, R.C.A., Schaber, O., Scholze, H., Schulze, G., Strunk-Lichtenberg, G., Ullrich, D. 1979. ‘Glasherstellung bei Plinius dem Älteren,’ Glastechniche Berichte 52, 265-270.
Meulebroeck, W., Cosyns, P., Baert, K., Wouters, H., Cagno, S., Janssens, K., Terryn, H., Nys, K., Thienpont, H. 2011. ‘Optical spectroscopy as a rapid and low-cost tool for the first-line analysis of glass artefacts: a step-by-step plan for Roman green glass,’ Journal of Archaeological Science 38(9), 2387-2398.
Nenna, M.-D. 2014. ‘Egyptian glass abroad: HIMT glass and its markets,’ D. Keller, J. Price and C. Jackson (eds) Neighbours and successors of Rome. Traditions of Glass Production and Use in Europe and the Middle East in the Later 1st Millennium AD. Oxford, Oxbow, 177-193.
Paynter, S. 2006. ‘Analyses of colourless Roman glass from Binchester, county Durham,’ Journal of Archaeological Science 33, 1037-1057.
Roymans, N., Huisman, H., van der Laan, J., van Os, B. 2014. ‘La Tène glass armrings in Europe. Interregional connectivity and local identity construction,’ Archäologisches Korrespondenzblatt 44(2), 215-228
Silvestri, A., Molin, G. and Salviulo, G. 2006. ‘Sand for Roman glass production: an experimental and philological study on source of supply,’ Archaeometry 48 (3), 415-432.
Shugar, A., Rehren, T. 2002. ‘Formation and composition of glass as a function of firing temperature,’ Glass Technology 43, 145-150.
Turner, W.E.S. 1956a. ‘Studies in ancient glasses and glassmaking processes, part III; the chronology of the glassmaking constituents,’ Journal of the Society of Glass Technology 40, 39-40.
Turner, W.E.S. 1956b. ‘Studies in ancient glasses and glassmaking processes, part IV; the chemical composition of ancient glasses,’ Journal of the Society of Glass Technology 40, 162-186.
Turner, W.E.S. 1956c. ‘Studies in ancient glasses and glassmaking processes, part V; raw materials and melting processes,’ Journal of the Society of Glass Technology 40, 277-300.
Van der Linden, V., Cosyns, P., Schalm, O., Cagno, S., Nys, K., Janssens, K., Nowak, A., Wagner, B., Bulska, E. 2009. ‘Deeply coloured and black glass in the northern provinces of the Roman Empire: differences and similarities in chemical composition before and after 150 AD,’ Archaeometry 51(5), 822-844.
Velde, B. 2013. ‘Glass composition over several millennia in the western world,’ in K.H.A. Janssens (ed.) Modern Methods for Analysing Archaeological and Historical Glass. Chichester, Wiley, 67-78.
Wedepohl, K.H. and Baumann, A. 2000. ‘The use of marine molluskan shells for Roman glass and local raw glass production in the Eifel area (western Germany),’ Naturwissenschaften 87, 129-132.
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