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Ghent University Academic Bibliography

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01JNC31G3E2YAQ5E7SBPMWE73T classification A1.
01JNC31G3E2YAQ5E7SBPMWE73T date "2020".
01JNC31G3E2YAQ5E7SBPMWE73T language "eng".
01JNC31G3E2YAQ5E7SBPMWE73T type journalArticle.
01JNC31G3E2YAQ5E7SBPMWE73T subject "Chemistry".
01JNC31G3E2YAQ5E7SBPMWE73T subject "History and Archaeology".
01JNC31G3E2YAQ5E7SBPMWE73T doi "10.1007/s12520-020-01050-0".
01JNC31G3E2YAQ5E7SBPMWE73T issn "1866-9557".
01JNC31G3E2YAQ5E7SBPMWE73T issn "1866-9565".
01JNC31G3E2YAQ5E7SBPMWE73T issue "6".
01JNC31G3E2YAQ5E7SBPMWE73T volume "12".
01JNC31G3E2YAQ5E7SBPMWE73T abstract "Roman glass is studied here by means of optical absorption spectroscopy, in order to provide an objective method to quantitatively evaluate colour. The dataset is composed of 165 soda-lime silicate glass samples from various western European sites, mainly dated from the first to fourth century AD, and containing variable amounts of iron, manganese and/or antimony. Iron redox ratios and colour coordinates (based on the CIELab colour system) are determined and put in relation with the thickness of samples and their manganese/antimony contents. Results reveal thickness as a crucial parameter when discussing glass hues, thus leading to a differentiation between the 'intrinsic' and 'perceived' colour of glass objects (i.e. the colour of the object with the thickness normalised to 1 mm, and that with its original thickness, respectively). Apart from HIMT and purple glass, the concentration of ferrous iron appears to be correlated with a* - a colourimetric parameter determining how green the glass is. Significant relations of antimony/manganese contents versus iron redox and glass colour are also considered, resulting in quantitative arguments to entitle antimony-decoloured glass as the most oxidised and colourless glass.".
01JNC31G3E2YAQ5E7SBPMWE73T author dca93a7b-0489-11ed-ac18-cfa70e0598ee.
01JNC31G3E2YAQ5E7SBPMWE73T author urn:uuid:00c4b54f-76be-427f-8d13-2ca4dc1aa92d.
01JNC31G3E2YAQ5E7SBPMWE73T author urn:uuid:03c874a3-dd6e-47b4-86b9-154edd78e8b8.
01JNC31G3E2YAQ5E7SBPMWE73T author urn:uuid:380daccc-842f-49f9-a7f8-3a39e9cf573f.
01JNC31G3E2YAQ5E7SBPMWE73T author urn:uuid:3b5313e2-3696-4149-8cc9-0f51064afd40.
01JNC31G3E2YAQ5E7SBPMWE73T author urn:uuid:5cddb871-02d6-4c13-b808-5a2a7c024e5a.
01JNC31G3E2YAQ5E7SBPMWE73T author urn:uuid:db6990aa-34c7-4612-8d1f-0933deed7ca2.
01JNC31G3E2YAQ5E7SBPMWE73T author urn:uuid:ffd53482-1121-471a-b4f5-a725a634bdd5.
01JNC31G3E2YAQ5E7SBPMWE73T dateCreated "2025-03-02T18:49:04Z".
01JNC31G3E2YAQ5E7SBPMWE73T dateModified "2025-03-10T11:02:17Z".
01JNC31G3E2YAQ5E7SBPMWE73T name "50 shades of colour : how thickness, iron redox and manganese/antimony contents influence perceived and intrinsic colour in Roman glass".
01JNC31G3E2YAQ5E7SBPMWE73T pagination urn:uuid:fda1a395-ea16-4451-921a-b21401b0a858.
01JNC31G3E2YAQ5E7SBPMWE73T sameAs LU-01JNC31G3E2YAQ5E7SBPMWE73T.
01JNC31G3E2YAQ5E7SBPMWE73T sourceOrganization urn:uuid:fea88a19-e230-439e-a172-78f8255f79c4.
01JNC31G3E2YAQ5E7SBPMWE73T type A1.